SU835837A1 - Perspectograph - Google Patents

Description

(54) PERSPECTIVE

The invention relates to drawing instruments for constructing perpendicular images and can be used in architectural tar-otechnyh organizations.

There is a known spectrophotograph containing a lever mechanism for parallel movement mounted on a drawing board, a radial model with two pivotally connected and tiltable arms and adjustable and guiding rails iH connected to the arms of the radial model by cable-block transmission 1.

However, such a perspective does not allow one to construct perspective images from orthogonal projections on a certain scale and to solve the inverse problem.

The purpose of the invention is to expand the range of tasks.

For this purpose, the proposed ne (the spectrograph has a body with a lever of a parallel movement mechanism with a vertical graduated groove, a double articulated parallelograph.m. installed on the case, spring tongs with variable masts and scale changing mechanisms, and a parallel mechanism displaced. and has additional levers forming the articulated parallelogram and associated with the articulated parallelogram of the body, with this, the hinge of the beam model of the beam model is located in the groove Ko.pnyica, and the rearward The scaling mechanism is numbed, on the case of a graduated lever connected to the lower lever of the hinge parallelogram of the case. By means of a slider, a horizontal bar with a pin connected to the graduated lever of the m. , cable-block transfer with protrusions on the flexible element, interacting with the pin of the plate, a gear reducer and a flexible rod, connecting one of the blocks

cable blocking gear. and with spring-loaded scale.

On f | IG. 1 shows a general view of the perectograph; FIG. 2 - ray model "ray rulers; FIG. 3 - change mechanism

scale; FIG. 4 — part of the zoom mechanism; in fig. 5 - kinematic scheme; FIG. 6 - .Schema tuned scales.

The spectrograph is mounted on

a drawing board / mechanism of parallel movement 2, to which the body 3 is attached with a vertical graduated groove 4. On the body 3 a beam model is installed, consisting of levers 5 and 6, connected by a shaft 7, placed in the groove 4,

and adjustable guides 8 and 9. Also on Kopinyce, 3 pa of barair 10, ustaiolep ray lintels 7 / n 12. Line 11 is connected with lever 5, and glue 12 is with linkage | M 6 beam model with the help of cable blocking. /, and the smallpox of the blocks are installed coaxially with the hinges 7 and 10. The mechanism of parallel displacement 2 "has additional levers 14, 15, 16, 17 and 18, while the levers 1/5, 16, 17 form a hinged parallelogram, Get variable triangles. A double articulated parallelogram is mounted on the housing 5. The lower arm / P is connected to the lever n with the extension of the lever 16. The adjustable guides 8 and 9 are fixed on the lever 19. On the rius 3 there are three spring scales 20 with variable scale and each scale has its own zooming mechanism, which has a graduated lever 21 connected to the lever 19 by means of the slide 22, horizontal horizontal strips 23 with pins

24 connected to the lever 21 lock

25, a cable-blocking transmission having blocks 26 and 37 and a flexible element 28 with protrusions 29 and 30 interacting with a planga pin 24 23. Block 26 through a flexible cable 31 and a gear editor 32 connected with a spring scale 20.

The kinematic scheme of the mechanism ensures that at any position of the body 3 on the board / the axes of the levers 5 and 6 pass through the points O and O on the xx line, taken beyond the horizon line, including their placement and outside the drawing board, and obtaining scales for lengths, widths and heights, which are directly proportional to the distance from the line of application of scale to l: and “and horizontal | nta. In this case, the position of the distance from the s-vein CD to the axis of the hinge Oo is related to the distance M from the line and xx to the axial line passing through the hinge O, the coefficient ti, g

I fr where n is the length of the lever 15, and

N is the length of the lever i / 5.

The distance between the points OQ and Ol is B directly proportional to the distance from the points O and Oo, which follows from the similarity of the triangles formed by the sides and the PGM. To build perspectives, first plan a rectangular object to be constructed. | According to the plan, the vanishing points are determined, the horizon line xx - and the distance M from the centerline of the hinge O to the horizon line, after which the spacing i7 of the visual spectrograph is set in groove 4 in accordance with the selected position of the horizon line XX l. 8 and 5 in accordance with the selected vanishing points O and O on the horizon line XX. Distance I from the horizon to

lines of equal-sized scale units for heights are: how | gii uncoupled a right-angled triangle With sides I and HZ, where I) is the distance from the horizon line to the line of equal-size scale units for straight lines going to the vanishing point HZ - the same for straight lines going to the vanishing point o.

Thus, after settling the scales along the width and length there is a distance HI n H-2, which I determine the distance I used to set the scale of heights.

The latches 2i5 are fastened on the graduated lever 2.1 according to the calculated scales.

When the lever 19 is moved relative to the housing 3, the corresponding lever (the IL1I approximation to the distance from the horizontal XX) moves the lever 21 connected to the lever / 9 by the slide 22. transmits the movement of the flexible element 28 and through it to the block 26. From the block 26 through the flexible cable 31 toothed gear 32, the movement is transmitted to the squad plate 20, causing it to deform and change the scale of length, width and height.

When passing through the horizontal line, the pin 24 interacts with the pin 24, providing the reverse scaling change.

The use of peropaktograf will speed up the design process. The device can be lured to build perspectives on a cylindrical surface.

Claims (2)

1. | A spectrophotograph containing a lever mechanism for parallel movement mounted on a drawing board, a radial model with two pivotally connected levers and a swivel, guides. And pivotally connected radial rulers connected with.: Levers of a radial model of a cable-block It is characterized by the fact that, for the purpose of expanding the diagonal range of tasks, it has a casing connected to the levers of the mechanism of parallel movement with a vertical city of the global slot, an articulated double hinge parallel to the body frame, spring tongs with variable scale and mechanisms for zooming, and the mechanism of parallel movement has additional levers forming a hinged parallelograph | M; M and associated with a hinged parallelogram of the zh.pus, while the charm of the levers of the beam model is located The IB slot of the body, and the adjustable rails are mounted on the lower part of the articulated arm of the body parallelogram. 2.; A perpectograph according to claim 1, characterized in that the mechanism for changing May: the headquarters has a graduated lever mounted on the housing, connected to the lower lever of the articulated parallelogram of the housing by means of a slide, a horizontal bar with a pin connected to the graduated fixation lever, the cable block transfer with protrusions on the flexible element, interacting with them with a pin pinion, a gear reducer, and a flexible cable, which is called, “is one of the units of the cable-and-wire transmission with a vertical scale. The source of information taken into account in the examination: 1. USSR author's certificate No. 319504, cl. B 43 L 13/04, 1968. nzn FIG. Axial hinge line