RU95122605A - ENGINE HOLDER FOR CHILD DESIGN SYSTEM - Google Patents

Claims (11)

1. The system of the child’s designer, forming a coherent structure of the ties, connecting elements and the mechanism of the rotary electric drive connected together, contains (a) many rod-shaped bonds (25, 26, 28, 30, 51) provided for in the set of calibrated lengths, each connection opposite end parts (21, 22, 23) having a special contour for engagement with said connecting elements (11, 29, 50), (b) a plurality of socket-shaped connecting elements, each having a radially spaced apart a set of pairs of grippers (15, 16) having a special contour for lateral engagement with the indicated ends of the bonds, and (c) these bonds are provided in a progression of calibrated lengths, in which the bonds of the same length, when connected to the connecting elements, are adequate for the formation the hypotenuses of an isosceles right-angled triangle, in which the bases are formed by bonds of the next smaller size when connected to the connecting elements, and (d) said coherent construction includes at least two engine support elements (26) connected to the first and second connecting elements (11) and extending in the first direction from said connecting elements spaced and parallel to each other, characterized by (e) said engine support elements, each of which has a longitudinal axis and a circuit (21, 22, 23) at one end for laterally engaging with pairs of grippers on said first and second connecting elements by moving said engine support elements in the direction of identical to their respective longitudinal axes, and a similar contour at the other end for similar grip by tank snap with pairs of grippers on the third and fourth connecting elements embedded in the specified coherent structure, (e) rigid support means (32, 33, 34) of the engine, acting together with said engine supporting elements for rigidly holding said engine supporting elements in a constant spaced position and for fixedly mounting the electric motor, and (g) the electric motor (37), odderzhivaemym said motor support means and having a rotary output shaft (38).  2. The system of the children's designer according to claim 1, further characterized by (a) a worm (47) connected to the indicated rotary output shaft, (b) a worm wheel (48) driven by the specified worm, and (c) the specified worm wheel is installed on the coupling shaft (43), (g) a pair of shaft-supporting connecting elements (50) forming part of the specified coherent structure and supporting said coupling shaft with the possibility of rotation radially offset relative to the output shaft of the specified engine, and (e) indicated This worm wheel is maintained in engagement with said worm.  3. The system of a child’s designer according to claim 2, further characterized in that (a) said worm wheel (48) is normally rotated with said coupling shaft (43), (b) the drive element (56), removably captures said shaft communication and engages with the specified worm wheel to induce the specified shaft-communication to rotate with the specified worm wheel.  4. The system of a child’s designer according to claim 3, further characterized in that (a) said coupling shaft (43) has parts of a non-circular cross section, (b) said driving element (56) has spaced apart grips (59, 60), removably engaging with said coupling shaft in a non-circular cross-sectional area, and (c) said driving member (56) has a protruding driving tooth (63) engaged with said worm wheel to effectively block the worm wheel from rotating relative to said coupling shaft.  5. The system of the child’s designer according to claim 1, further characterized by (a) the indicated coherent structure, containing many bonds (25, 26, 28, 30, 51) and connecting elements (11, 29, 50), which form, as a rule, rectangular frame structural module, and (b) the specified frame structural module has four lower and four upper corners, (c) connecting elements on each of these four lower and four upper corners, and (d) two of these bonds (28) are connected to pairs connecting elements (11) on said lower corners, (e) shaft-supporting connecting elements (50) coupled to pairs of connecting elements 11 at said upper corners and spaced between them, (e) a coupling shaft (43) rotatably supported by said shaft supporting connecting elements, (g) a driven gear (48) supported by said coupling shaft and rotated with it, and (h) a pinion gear (47) mounted on the output shaft (38) of said engine (37) and engaged with said driven toothed som.  6. The system of the child’s designer according to claim 1, further characterized by (a) the indicated engine support elements containing rod-shaped elements (28), separated from the said rigid engine support means, (b) the indicated rod-shaped elements (28) having opposite end parts, open at opposite ends of said rigid engine support means and coupled said connecting elements (11), (c) said engine support means including a rigid element (32, 33), normally fixed in contact with these rod-shaped elements and supported by them.  7. The system of a child’s designer according to claim 6, further characterized by (a) the indicated engine support means having a pair of tubular guide elements (32) and a means (33) rigidly connecting said tubular guide elements to each other, and (b) said detachable rod-shaped elements (28) are placed in the specified tubular guide elements (32) and have contour end parts (21, 22, 28) protruding from the opposite ends of these guide elements for the specified coupling lateral snap-on with the decree these connecting elements.  8. The system of the children's designer according to claim 6, further characterized by (a) the indicated detachable rod-shaped elements (28) containing elements selected from these bonds.  9. The system of the children's designer according to claim 1, further characterized by (a) a first gear wheel (47) of the drive mounted on the indicated output shaft of the engine, (b) a second gear wheel (48) of the drive, which is meshed with the specified first drive gear , (c) a support shaft (49) intended for said second drive gear containing one of said rod-shaped links, wherein (d) said second drive gear is rotatably mounted on said support gear, (e) a first drive m element (56), removably capturing the specified support shaft and connecting the specified second gear wheel (48) of the drive with the specified support shaft for rotation with it, (e) gear (70) mounted on the specified support shaft for rotation, (g) a second driving member (73) removably gripping said support shaft (49) and connecting said gear to said support shaft for rotation with said support shaft and a second drive gear, (h) second support shafts (76) supported for rotation in said coherent cons (3) a third drive gear (71) mounted on said second support shaft, (k) a third driving element removably gripping said support shaft and connecting said third drive gear for rotation with said second support shaft, (l) an output drive element (90) mounted rotatably on said second support shaft (76), and (m) a fourth driving element (91, 92) removably gripping said support shaft and connecting said output drive element for rotation with said the support shaft and the third gear of the drive.  10. The system of a child’s designer according to claim 9, further characterized by (a) the indicated first and second support shafts (49, 76) containing two of the indicated bonds, (b) the indicated bonds having parts (53) of a non-circular cross section, (c ) the specified leading elements (54, 91, 92), each of which has a base (57), a pair of capturing (59, 60), coming out of it and adapted to capture these bonds in the indicated parts (53) of a non-circular cross section, and the leading tooth (63, 64) coming out of it and coupled to a gear wheel, gear or output e ementom drive.  11. The system of a child’s designer according to claim 1, further characterized by (a) the indicated construction (31) of the engine holder, which integrally and rigidly connected to it, as a rule, is a cylindrical casing (35) having a closed end (39) and open end face (40), wherein (b) said drive motor (37) is generally cylindrical and tightly placed in the open end of said casing, (c) said engine having a protruding output shaft (38) at one end, (g ) the specified casing having an opening (41) in its closed end face, before Assigning to the passage of said output shaft, and (d) an end cap (42) connected to the open end of said housing and closing it.