RU2062703C1 - Method of full-scale reproduction of sculptural portrait - Google Patents

Abstract

FIELD: process of production of sculptural portraits with the use of a sitting man for his portrait as a full-scale object. SUBSTANCE: at reproduction of a sculptural portrait narrow light beams in the form of narrow stripes are projected onto the object's surface, templates are made according to the light sections of the beams, they are installed at assembly with due account made for the direction of the light stripes. Two groups of templates corresponding to the object's relief on the external and internal sides are mainly used. An elastic partition is placed between the templates, which is used for moulding the portrait. Correctness of the templates is checked visually by their superposition on the object's surface. EFFECT: enhanced objectivity of impression of the object's relief, reduced tiresome process of sitting for portrait, enhanced convenience of keeping of object's surface relief data. 3 cl, 3 dwg

Description

 The invention relates to the technology of manufacturing sculptural portraits using a posing person as a natural object.

 A known method of manufacturing sculptural portraits using the puncture technique / 1 /. The method is carried out by registering the surface topography of the object at the reference points and transferring them at a given scale to the manufactured portrait using a probe moved relative to the base surfaces. The known method is used mainly in the manufacture of copies or sculptures made of stone with a model made in clay or clay.

 Known for a more advanced method of manufacturing sculptural portraits using a device for transforming voluminous bodies / 2 /. When implementing the method, the surface topography of the object is recorded using a probe connected to the reproducing pin using a parallelogram mechanism.

 A disadvantage of the known methods is that their implementation requires a long posing time in a strictly stationary position. In addition, due to the high complexity, a limited number of control points can be transferred from the object. As a result, the implementation of these methods does not provide the necessary objectivity of the process.

 There is also a method of full-scale reproduction of a sculptural portrait by projecting light beams onto an object’s surface, images of which are projected at a certain angle onto a recording device from which relief data of the object’s surface is removed / 3 /.

 The disadvantage of this method is also the complexity of the portrait.

 The aim of the present invention is to increase objectivity, reduce the time of posing and reduce the complexity.

 This goal is achieved by the fact that in the known method of reproducing sculptural portraits, including the operation of recording surface relief data and forming a portrait, the projected rays on the surface of the object are formed in the form of light strips with a certain mutual distance, and light sections of the surface are projected at a certain angle to record the relief data and the manufacture of patterns that are set taking into account the direction of projection of light stripes when forming the portrait surface.

 According to the relief data, two groups of patterns are made that correspond to the surface of the object from the outside and inside, and when templates are installed, an elastic partition is placed between them, which is used to form the portrait.

 In addition, the patterns are set intersecting with each other and a mirror image is made taking into account the plane of symmetry of the surface of the object.

 In the process of recording the relief data, light strips are projected onto the surface of the object using a projector equipped with a slit diaphragm or filament, and the light sections formed on the surface are recorded at a certain angle using a camera on film. The specified distance between the sections is ensured by the stepwise movement of the projector with the camera relative to the object. Since the registration of data is discrete, their number will be proportional to the accuracy of the terrain reproduction. At the same time, it is advisable to register sections with a shorter distance from the face surface of the main part of the sculptural portrait.

 It should be noted that it is difficult to produce fairly clear patterns from the surface of the head with hairline. This will require the application of traditional sculpture technology in the process of portrait formation. However, according to the surface relief of the face, the method allows to obtain patterns of the necessary clarity. As a material for the templates, you can use photo paper onto which each light section is reproduced from the film at a given scale using photo printing. If necessary, sheets of photo paper can be hardened with a sticker on a more durable sheet material. Then, the photo paper is cut along the lines of the registered sections and two templates are received from each sheet, reflecting the surface of the object from the outside and inside.

 In the manufacture of the portrait, patterns corresponding to the surface on the outside are used by applying them to the moldable surface. This technique may be applicable in the manufacture of a portrait from plastic or hard materials; templates for the surface from the inside are used simultaneously by the whole group. At the same time, they are installed in accordance with the directions of projection of light strips. This technique can be applied in the manufacture of a portrait from plastic materials, by filling the space between the templates, for example plastelin, so that the profiles of the templates coincide with the surface being molded. In order to increase the efficiency of the method, two groups of templates are made, one of which corresponds to the surface of the object from the inside, for example, with a horizontal arrangement of templates, and the other from the outside, with a vertical arrangement of templates. In the assembled state, when the groups of templates are interconnected, their profiles intersect and form a grid of surface relief. An elastic, such as a rubber sheet partition, installed between the profiles of the templates, is deformed according to the shape of the surface relief, and serves to form a portrait, for example, using liquid gypsum.

 When implementing the method, the posing process can be simplified. For this, the surface topography is recorded taking into account its symmetry, and the data is used for the manufacture of direct and mirror images.

 In FIG. 1 shows an optical scheme for registering the surface of the head. In FIG. Figures 2 and 3 show a block of patterns installed in the state of the portrait being molded.

 The optical scheme consists of two parts: projecting and recording. The projection part includes: a light source 1, a condenser 2, a slit diaphragm 3, and a lens 4. The recording part includes: a lens 5 and a photosensitive material 6. The template block includes: a collector 7 templates 8 that reflect the surface of the object from the outside, elastic the partition 9, gaskets 10 and patterns 11, reflecting the surface of the object from the inside.

 To verify the proposed method was performed full-scale registration of the relief of the surface of the human head.

As a projecting part of the optical scheme (see Fig. 1), a U-2 magnifier projector was used, and as a recording part, a FED-5 camera with a black and white film. The angle between the optical axes of the lenses was 60 ^o .

In the process of registering data, for the manufacture of templates 8 (see figure 2), reflecting the surface of the object from the outside, vertical light stripes were projected, and light sections were photographed at given angles of rotation of the projector with a camera. To make patterns reflecting the surface of the object from the inside, horizontal light strips were projected, and light sections were photographed with a vertical rectilinear movement of the projector with the camera. At the same time, to obtain a template around the entire perimeter of the head, horizontal light sections were photographed from three sides. From the processed film, photo prints were made on photo paper, on a 1: 1 scale, with respect to the object. Moreover, in order to eliminate distortion of the light section, due to the mismatch of the angle between the optical axes of the lenses with an angle of 90 ^o , photo prints were performed at an angle of 30 ^o .

 Templates were cut out of the received photo prints. The correctness of the patterns was checked visually by overlaying them on the surface of the posing head. In all registered positions, the patterns did not have significant deviations from the topography of the head surface.

The application of the proposed method for full-scale reproduction of sculptural portraits, in comparison with known methods provides the following advantages:
a) Improves the objectivity of registration of the surface relief of the object.

 b) Ensures the availability of the manufacture of sculptural portraits without the use of professional skills of the sculptor.

 c) Significantly reduces the tedious process of posing.

 d) Simplifies the process of changing the surface topography of an object on a scale.

 d) Provides the convenience of storing relief data on the surface of the object. YYY2

Claims (3)

 1. A method of full-scale reproduction of a sculptural portrait, which includes recording relief data of the surface of an object by projecting focused light rays onto it, images of which are projected at a certain angle onto a recording device, characterized in that the rays projected onto the surface of the object are formed in the form of rectilinear stripes, according to light sections which, after registration, make patterns that are collected in accordance with the direction of projection of the light stripes.  2. The method according to claim 1, characterized in that two groups of patterns are made corresponding to the relief of the object from the outside and inside, and when assembling the patterns, an elastic partition is arranged between their groups, the surface of which is used to form the portrait.  3. The method according to claim 2, characterized in that the groups of patterns are set in intersecting planes.

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