Abstract
The invention refers to a retractable a retractable modular partition wall that may be used to partition residential spaces, or it may operate as a garage door that is mounted on two parallel walls of a premises and consists (FIG. 1.1) of an assembled left-side runway. A, that is fastened with the aid of the some known fastening elements, such as dowels and screws, on the conventionally left wall of the premises, an assembled right-side runway, B, mirroring the left-side runway, A, and which is fastened with some known fastening elements, such as dowels and screws, on the conventionally right-side wall of the premises, a drive mechanism. C, and several assembled movable panels, D. The retractable modular partition wall is conceived so that: i) when used inside or outside a building, in retracted state, it looks like a horizontal beam, whereas in expanded state it operates as a wall; ii) when used outside a building, in retracted state it looks like a horizontal beam, whereas in expanded state, it operates as a garage door; iii) it is operated through electronic command and, in case of power failure, it can be driven manually; iv) when used in a premises, whether inside or outside a building, in expanded state, it can operate as a projection screen or an advertising surface.
Claims
1. A retractable partition wall comprising: a removable shutter having a plurality of assembled panels (E, F, G) designed to slide along lateral guides (2, 2) using a motor (7), which, when retracted, the plurality of assembled panels (E, F, G) have an aspect of a horizontal beam attached to a ceiling, whereas when expanded the plurality of assembled panels (E, F, G) operate as a wall, said retractable partition wall being characterized in that said retractable partition wall comprises an assembled left-side runway (A), that is fastened with an aid of fastening elements comprising dowels and screws, on a left-side wall of premises, an assembled right-side runway, (B), mirroring the assembled left-side runway (A), and which is fastened with fastening elements comprising dowels and screws, on a right-side wall of the premises, a drive mechanism (C) and the plurality of assembled panels (E, F, G); the assembled left-side runway (A) comprising (FIG. 2a, FIG. 2a) a left bridle (1) of hb height, fastened at a base of the left-side wall, a vertical runway (2) of hc height, Ic width and gc thickness, with a slot (a) of a1<gc of depth, the vertical runway (2) lies on top of and is attached to the left bridle (1), and a left-side storage panel (3) (FIG. 3.1, FIG. 3.2, FIG. 3.3), of hp height, Ip width and gp=gc thickness, attached to the ceiling of the premises, on top of and going onward from the runway (2); in the left bridle (1), the slot (a), of a1 depth, of the vertical runway (2) continuing on for a depth abhb an anterior end of the left bridle (1) has a milled slot (c) and a hole (d) in which a first sprocket wheel (5) for a first Gall chain can be assembled on an axle (4) inserted through the hole; the left-side storage panel having an F-shaped slot, which, vertically and going forth from a bottom branch of a letter F, continues the slot (a) of the vertical runway (2), at a same depth (a1); the continuation of the vertical of the slot (a) and the top branch of the letter F is a slot (as) of the same width (gp) but having a a2<a1 depth; two slots that form horizontal branches of the letter F connect to the vertical slot with a rc radius and continue under a angle; a vertical distance between the two slots is p; e is a distance between a bottom edge of the left-side storage panel (3) and a peak (b) of an upper part of a lower slot of the letter F; in the left-side storage panel (3), on a vertical line perpendicular from an axis of the hole (d) in the left bridle (1), a square orifice (m) has been made at a md distance from a lower side of the left-side storage panel (3); the assembled right-side runway (B), while mirroring the assembled left-side runway (A), is made of a right-side bridle (1), fastened on the right-side wall, a vertical runway (2) of hc height, Ic width and gc thickness, with a slot (a) of a1<gc depth, the vertical runway (2) lies on top of and is attached to the right-side bridle (1) and a right-side storage panel (3) (FIG. 4.1, FIG. 4.2, FIG. 4.3) of hp height, Ip width and gp=gc thickness, attached to the ceiling of the premises, on top of and going onward from the runway (2), in the right-side bridle (1) of hb height, the slot (a) of a1 depth of the vertical runway (2) continuing on a abhb depth; an anterior end of the right-side bridle (1) has been subjected to a milling process (c) and there is a hole (d) in which a second sprocket wheel (5) for a second Gall chain, identical to the first sprocket wheel (5) can be assembled on an axle (4) inserted through the hole; in the right-side storage panel (3), a vertical line perpendicular from an axis of the hole (d) in the right-side bridle (1), a square orifice (m) has been made at the md distance from the lower side of the right-side storage panel (3); the right-side storage panel has a reversed F-shaped slot that, vertically and going forth from the bottom branch of the reversed letter F continues the slot (a) of the vertical runway (2) at the same depth (a1); the continuation of the vertical of the slot and the top branch of the reversed letter F is a slot (as) of the same width, gp, but having a a2<a1 depth; two slots that form the horizontal branches of the reversed letter F connect to the vertical slot with a rc radius and continue under a angle, the vertical distance between the two slots is p; e is a distance between the bottom edge of the right-side storage panel (3) and a peak (b) between the upper part of the lower slot of the reversed letter F; a driving unit of the drive mechanism (C) comprising a polygonal tube (6), in which, through a left end, a motor (7) is inserted, that, at a right end, has a polygonal-headed axle (8) that slides into the tube (6) as far as a limiting concavity (u) (FIG. 1a) made on the tube; after the motor (7) is inserted, at the left end of the tube (6), a distance piece (9) is glided in, which, on an outside, has a section of the tube (6) and on an inside, has about an exterior diameter of the motor; a third sprocket wheel (10) for the first Gall chain is assembled on the distance piece (9); a head (bb) of same cross-section as that of the square orifice (m) is placed axially on an encasing at the left end of the motor (7); the orifice (m) is processed in the left-side storage panel (3); at the right end of the tube (6), a distance piece (9) is glided in, which, on an outside, has the same cross-section of the tube, and, at a free end, axially, has a cylindrical head (cc) of the same cross-section as that of the cylindrical orifice (m) processed in the right-side storage panel (3); on the distance piece (9) a fourth sprocket wheel (11) for the second Gall chain is assembled; on the third sprocket wheel (10) for the first Gall chain and the first sprocket wheel (5) for the first Gall chain the endless first Gall chain (12) is assembled; on the side facing the runway (2), the first Gall chain (12) has an upper work driving arm (13) and a lower work driving arm (23); on the fourth sprocket wheel (11) of the second Gall chain and the second sprocket wheel (5) of the second Gall chain the endless second Gall chain (12) is assembled; on the side facing the runway (2), the second Gall chain (12) has an upper work driving arm (13) and a lower work driving arm (23); in the assembly, a B axis of the upper work driving arm (13) is the same as the axis of the upper work driving arm (13) (FIG. 1c); in the assembly, a Z-Z axis of the lower work driving arm (23) is the same as the axis of the lower work driving arm (23); the plurality of assembled panels (E, F, G) comprise an assembled lower panel (E) of which, laterally, on both sides, is assembled an assembled lower distance module (M.sub.E) (FIG. 7); several assembled intermediary panels (F) of which, laterally, on both sides, is assembled an assembled intermediary distance module (M.sub.F) and an assembled upper panel (G) of which, laterally, on both sides, is assembled an assembled upper distance module (M.sub.G).
2. The Retractable partition wall of claim 1, wherein the assembled intermediary panel (F) is characterized in that the assembled intermediary panel (F) comprises a panel (14) of Ipan length, hpan height and gpan thickness, which, both in the upper and the lower part, both at a t distance from both edges and in a middle, has a plurality of holes (o), of ao depth; it is only in the plurality of holes (o) on the upper part of the panel that orientation bolts (15) are assembled, which are made so that lower parts of the orientation bolts are bound in the plurality of holes (o) on the upper part of the panel (14) whereas on the free side of hpan height of the panel, with the help of an orientation bevel (to), are adapted to be guided and slide into the plurality of holes (o), of ao>bh depth, on a lower part of a next panel, when such a panel exists; laterally, on either side of each panel (F) at a x distance (FIG. 5) from the edges on the hpan height, there are two orifices (or) in which bolts (16 and 17) of an assembled intermediary distance module (M.sub.F) are inserted without any clearance; when assembled, the assembled intermediary panel (F), with the assembled intermediary modules (M.sub.F) to the left and to the right of the panel (14) are adapted to slide on bearings (21) on short bolts (16) along the slots (as and as), of a2 depth, and respectively with the bearings (21) on long bolts (17), along the slots (a and a); the assembled intermediary distance module (M.sub.F) comprises two symmetrical lateral elements (18 and 18) of Lmd length, Imd>gpan width, a compression spring (19), which, when uncompressed, has a length larc, and, when compressed, has a length Icomp, a slide block (20), a short bolt (16), on which a bearing (21) is fastened, and a long bolt (17) on which another bearing (21) is fastened; each of the symmetrical elements (18 and 18) have a plurality of orifices (ot), a gliding slot (cu), that ends at a shoulder (um); the slide block (20) has a longitudinal slot (cln) of Ican length and of a width equal to the diameter of the short bolt (16) and an extension (pre) that is worked in such manner that, during assembly, the glide block (20) glides into the gliding slot (cu) under an action of the spring (19); the assembled lateral symmetrical elements (18 and 18), compression spring (19) and glide block (20) are fastened with some screws (22); the bolts (16 and 17) are assembled through the plurality of orifices (ot) and, on them, the bearings (21) are assembled without any clearance.
3. The Retractable partition wall of claim 2, wherein the assembled lower panel (E) is characterized in that the assembled lower panel(E) differs from the assembled intermediary panel (F) in that the assembled lower panel (E) has, at both ends, an assembled lower distance module (M.sub.E); the assembled lower distance module (M.sub.E) differs from the assembled intermediary distance piece (M.sub.F) in that the assembled lower distance module (M.sub.E) has two identical and mirroring small face plates (24 and 24) assembled between the bolts (16 and 17) with the screws (22), both plates having a drive slot in them (cm, respectively cm).
4. The Retractable partition wall of claim 2, wherein the assembled upper panel (G) is characterized in that the assembled upper panel (G) differs from the assembled intermediary panel (F) in that the assembled upper panel (G) has, at both ends, an assembled upper distance module (M.sub.G); the assembled upper distance module (M.sub.G) as compared to the assembled intermediary distance module (M.sub.F), the assembled upper distance module (M.sub.G) has a coupler jaw (26) that is assembled on a sliding block (20) with a screw bolt (25).
Description
(1) Next, an example of execution of this invention is given also with reference to the following figures that represent:
(2) FIG. 1 a perspective exploded view of the movable retractable wall
(3) FIG. 1.2a perspective isometric view of construction of the assembled retractable partition wail
(4) FIG. 1.3a W presentation detail of the manner of stacking of the panels of the
(5) FIG. 1aan exploded isometric view of the conventionally right end of the driving unit
(6) FIG. 1aan assembled isometric view of the conventionally right end of the driving mechanism
(7) FIG. 1ban exploded isometric view of the conventionally left end of the driving unit
(8) FIG. 1ban assembled isometric view of the conventionally left end of the driving unit and FIG. 1can assembled isometric view of the Y-Y axis of the upper work driving arms, 13 and 13, and the Z-Z axis of the lower work driving arms, 23 and 23
(9) FIG. 2aa front view of the assembled left-side runway
(10) FIG. 2ba front view of the assembled right-side runway
(11) FIG. 2aan isometric view of the bridie of the assembled left-side runway
(12) FIG. 2ban isometric view of the bridle of the assembled right-side runway
(13) FIG. 3.1a front view of the left-side storage panel
(14) FIG. 3.2a X view of the left-side storage panel
(15) FIG. 3.3an isometric view of the left-side storage panel to highlight the shape of the slots
(16) FIG. 4.1a front view of the right-side storage panel
(17) FIG. 4.2a Y view of the right-side storage panel
(18) FIG. 4.3an isometric view of the right-side storage panel to highlight the shape of the slots
(19) FIG. 5a view and details of the assembled intermediary panel
(20) FIG. 6, FIG. 6, FIG. 6an isometric view of the assembled intermediary distance module
(21) FIG. 7an isometric view of the assembled bottom distance module
(22) FIG. 8an isometric view of the assembled top distance module
(23) FIG. 9.1, FIG. 9.1, FIG. 9.2, FIG. 9.2, FIG. 9.3, FIG. 9.3, FIG. 9.4, FIG. 9.5, FIG. 9.6, FIG. 9.6, FIG. 9.7, FIG. 9.7, FIG. 9.7stages and details of the assembling
(24) FIG. 10isometric detail of the modular panel when lifted completely
(25) FIG. 11isometric detail of the manually driven mechanism
(26) FIG. 12.1isometric detail of the upper part of the retractable wall when expanded to highlight the alpha >0 installation condition and FIG. 12.2detail of the assembled movable panels consisting of an assembled lower panel, E, several assembled intermediary panels, F, and an assembled upper panel, G
(27) According to the invention, the vertical movable retractable wall vertical movable retractable wall system is mounted on two parallel walls of the premises and it consists FIG. 1, FIG. 1.2, FIG. 1.3) of an assembled left-side runway assembled left-side runway, A, that is fastened with the aid of the some known fastening elements, such as dowels and screws, on the conventionally left wall of the premises, an assembled right-side runway assembled right-side runway, B, mirroring the left-side runway, A, and which is fastened with some known fastening elements, such as dowels and screws, on the conventionally right-side wall of the premises, a drive mechanism drive mechanism, C, and several assembled movable panels, D; the assembled left-side runway assembled left-side runway, A, consists of (FIG. 2a, FIG. 2a) a left bridle, 1, fastened at the base of the conventionally left-side wall, a vertical runway, 2, of hc height, Ic width and gc thickness, with a slot, a, of a1<gc of depth, a vertical runway, 2, that lies on top of and is stuck to the left bridle, 1, and a left-side storage panel, 3, (FIG. 3.1, FIG. 3.2, FIG. 3.3), of hp height, Ip width and gp=gc thickness, stuck to the ceiling of the premises, on top of and going onward from the runway, 2, in which an F-shaped slot is made that, vertically and going forth from the bottom branch of the letter ,,F, continues the slot, a, of the vertical runway, 2, at the same depth, a1; the continuation of the vertical of the slot, a, and the top branch of the letter F is a slot, as, of the same width, gp, but having a a2<a1 depth;
(28) The two slots that form the horizontal branches of the letter F connect to the vertical slot with a rc radius and continue under a slope of angle, also called gravitational fall angle; the vertical distance between the two slots is p;
(29) We note with e the distance between the bottom edge of the left-side storage panel, 3, and the peak, b, between the upper part of the lower slot of the letter F, of a1 depth, and the left side of the slot that continues with the a2 depth;
(30) In the left bridle, 1, of hb height, the a slot of the vertical runway, 2, of a1 depth, continuing with the abhb depth; the anterior end of the left bridle, 1, has a milled slot, c, and a hole, d, in which a sprocket wheel, 5, for Gall chain can be assembled on an axle, 4.
(31) In the left-side storage panel, 3, on the vertical line lifted from the axis of the hole, d, in the left bridle, 1, a square orifice, m, has been made at the md distance from the lower side of the left-side storage panel, 3;
(32) The assembled right-side runway, B, (FIG. 2b, FIG. 2b) mirroring the assembled left-side runway, A, is made of a right-side bridle, 1, fastened on the conventionally right-side wall, a vertical runway, 2, of hc height, Ic width and gc thickness, with a slot, a, of a1<gc depth, a vertical runway, 2, that lies on top of and is stuck to the left bridle, 1, and a left-side storage panel, 3, (FIG. 4.1, FIG. 4.2, FIG. 3.3), of hp height, Ip width and gp=gc thickness, stuck to the ceiling of the premises, on top of and going onward from the runway, 2, in which a reversed F-shaped slot is made that, vertically and going forth from the bottom branch of the letter ,,F, continues the slot, a, of the vertical runway, 2, at the same depth, a1; the continuation of the vertical of the slot, a, and the top branch of the reversed letter F is a slot, as, of the same width, gp, but having a a2<a1 depth;
(33) The two slots that form the horizontal branches of the reversed letter F connect to the vertical slot with a rc radius and continue under a slope of angle, also called gravitational fall angle; the vertical distance between the two slots is p;
(34) We note with e the distance between the bottom edge of the right-side storage panel, 3, and the peak, b, between the upper part of the lower slot of the reversed letter F, of a1 depth, and the left side of the slot, as, that continues with the a2 depth;
(35) In the right bridle, 1, of hb height, the a slot, of a1 depth of the vertical runway, 2, continuing with the abhb depth: the anterior end of the left bridle, 1, has a milled slot, c, and there is a hole, d, in which a sprocket wheel, 5, for Gall chain, identical to the sprocket wheel 5, can be assembled on an axle, 4.
(36) In the right-side storage panel, 3, on the vertical line lifted from the axis of the hole, d, in the right bridle, 1, a square orifice, m, has been made at the md distance from the lower side of the right-side storage panel, 3;
(37) The driving unit, C (FIG. 1a, FIG. 1a, FIG. 1b, FIG. 1b, FIG. 2a, FIG. 2b, FIG. 5) consists of a polygonal tube, 6, for example an octagonal one, in which, Through the conventionally left end, a special motor, 7, is inserted, that, at the right end, has a polygonal-headed axle, for example an octagonal one, 8, that slides into the tube, 6, as far as a limiting impression, u, made on the tube: after the motor, 7, is inserted, at the conventionally left end of the tube, 6, a distance piece, 9, is glided in, which, on the outside, has the section of the tube, 6, and on the inside, has the exterior diameter of the motor, with a little clearance; a sprocket wheel for Gall chain, 10, is assembled on the distance piece, 9; a head, bb, of the same section as that of the square orifice, m, is placed axially on the encasing as the left end of the motor, 7; the orifice, m, is processed in the left-side storage panel, 3; At the conventionally right end of the tube, 6, a distance piece, 9, is glided in, which, on the outside, has the section of the tube, and, at the free end, axially, has a cylindrical head, cc, of the same section as that of the cylindrical orifice, m, processed in the right-side storage panel, 3; on the distance piece, 9, a sprocket wheel for Gall chain, 11, is assembled; On the sprocket wheel for Gall chain, 10, and the sprocket wheel for Gall chain, 5, an endless Gall chain, 12, is assembled; on the side facing the runway, 2, the Gall chain, 12, has an upper work driving arm, 13, and a lower work driving arm, 23, both placed at an Ib distance; On the sprocket wheel of the Gail chain, 11, and the sprocket wheel of the Gall chain, 5, an endless Gall chain, 12, is assembled; on the side facing the runway, 2, the Gall chain, 12, has an upper work driving arm, 13, and a lower work driving arm, 23, both placed at an Ib distance; In the assembly, the Y-Y axis of the upper work driving arm, 13, is the same as the axis of the upper work driving arm, 13 (FIG. 1c) In the assembly, the Z-Z axis of the lower work driving arm, 23, is the same as the axis of the lower work driving arm, 23
(38) The assembled movable panels, D (FIG. 2a, FIG. 2b), consist of an assembled lower panel, E, several assembled intermediary panels, F, and an assembled upper panel, G;
(39) The assembled intermediary panel, F, (FIG. 5, FIG. 6, FIG. 6, FIG. 6) consists of a panel, 14, of Ipan length, hpan height and gpan thickness, which, both in the upper and the lower part, both at a t distance from both edges and in the middle, has an unfair hole, o, of ao depth; it is only in the orifices on the upper part of the panel that some orientation bolts, 15, can be assembled, which are made so that some of them may be bound in the orifices on the upper part of the panel, 15, whereas on the free side of hpan height, with the help of an orientation bevel, to, some may be guided and slide into the unfair holes, o, of ag>bh depth, on the lower part of the next panel, when such a panel exists; laterally, on either side of each panel, F, at the x distance (FIG. 5) from the edges on the hp height, there are two orifices, or, in which some bolts, 16 and 17, of an assembled intermediary distance piece, M, are inserted without any clearance; when assembled, the assembled intermediary panel, E, with the assembled intermediary modules, M.sub.E, to the left and to the right of the panel, 14, may slide on the bearings, 21, on the short bolts, 16, along the as and as' slots, of a2 depth, and respectively with the bearings, 21, on the long bolts, 17, along the a and a slots, of a1 depth;
(40) The assembled lower panel, E, differs from the assembled intermediary panel only in that it has an assembled lower distance piece M.sub.E (FIG. 7) at its ends;
(41) The assembled upper panel, G, differs from the assembled intermediary panel only in that it has an assembled lower distance piece M.sub.G (FIG. 8) at its ends;
(42) The assembled intermediary distance piece (M.sub.F) (FIG. 6, FIG. 6, FIG. 6) consists of two symmetrical lateral elements (18 and 18) of Lmd length, Imd>gpan width, a compression spring (19), which, when uncompressed, has the Iarc length, and, when compressed, has the Icomp length, a slide block (20), a short bolt (16), on which a bearing (21) is fastened, and a long bolt (17) on which another bearing (21) is fastened; each of the symmetrical elements (18 and 18) have some orifices (ot), a gliding slot (cu), that ends at a shoulder (um); the slide block (20) has a longitudinal slot (cln) of Ican length and of a width equal to the diameter of the short bolt (16) and an extension (pre) that is worked in such manner that, during assembly, the glide block (20) glides into the gliding slot (cu) under the action of the spring (19); the assembled lateral symmetrical elements (18 and 18), compression spring (19) and glide block (20) are fastened with some screws (22); the bolts (16 and 17) are assembled through the orifices (ot) and, on these bolts, the bearings (21) are assembled without any clearance;
(43) The assembled lower distance piece (M.sub.E) (FIG. 7) differs from the assembled intermediary distance piece (M.sub.F) in that has two identical and mirroring small face plates (24 and 24) assembled between the bolts (16 and 17), with the screws (22), both plates having a drive slot in them (cm, respectively cm);
(44) The assembled upper distance piece (M.sub.G) (FIG. 8) differs from the assembled intermediary distance piece (M.sub.F) in that a coupler jaw (26) is assembled on the sliding block (20) with a screw bolt (25);
(45) In a second version, the driving unit, C, is completed by a manual driving mechanism, H, (FIG. 17) that would be necessary in case the motor, 7, stops working due to a power failure; the manual driving mechanism, H, is mounted, for example, on one of the storage panels, 3 or 3, and it consists of a box, 27, in which a Gall chain sprocket wheel, 28, is engaged together with the Gall chain, 12 or 12, and laterally with a conveyer worm, 29, fastened on the box, 27, and driven by a lever, 30. The manual drive mechanism, H, is disengaged as long as the motor drive, 7, operates; when the manual drive, H, is preferred, the motor, 7, has to be disengaged.
(46) In a third version, the driving unit, C, is only actuated by the manual driving mechanism, H.
(47) Manner of assembly (FIG. 9.1, FIG. 9,7, FIG. 9.2, FIG. 9.2, FIG. 9.3, FIG. 9.3, FIG. 9.3, FIG. 9.4, FIG. 9.5, FIG. 9.6, FIG. 9.6, FIG. 9.7, FIG. 9.7, FIG. 9.7): In the initial stage, the assembled left-side runway, A, the assembled right-side runway, B and the driving unit, C, are mounted in the premiseson the walls, columns etc.; the special engine, 7, not being on load, the polygonal-headed axle rotates freely; the Gall chains, 12 and 12, are assembled on the wheels, 10 and 5, respectively 11 and 5, so that the lower work driving arms, 23 and 23, are in the proximity of the Gall chain sprocket wheels, 10 and respectively 11, on the side facing the 2 and respectively 2 runways; In the second stage, simultaneously, through the two slots that make the horizontal branches of the letter F in the storage panels 3 and 3, the assembled lower panel, E, is inserted: both on the left-side storage panel, 3, and the right-side storage panel, 3, the bearings, 21, on the long bolt, 17, are first inserted in the slot a, then the bearings, 21, on the short bolt, 16, are inserted in the slot as; owing to the fact that Dis>p (FIG. 6, FIG. 3.1, FIG. 4.1), the assembled lower panel, E, will have an oblique position; owing to the p gravitational fall angle of the runways in the two storage panels, 3 and 3, the assembled lower panel, E, will slide along the slots and will fix the lower work driving arms, 23 respectively 23, in the drive slots, cm, respectively cm, of the small face plates, 24 and 24, which will glide freely in the slots, cm and respectively cm: the assembled intermediary panels, F, are inserted one by one, in the same manner and, at the end, the assembled upper panel, G, is inserted (FIG. 2a, FIG. 2b); In the third stage, by letting the assembled lower panel, E, glide freely, through its own weight, in the vertical runways, 2 and respectively 2, as soon as the downward movement of the assembled lower panel, E, allows it, the first assembled intermediary panel, F, positions itself by gliding with the two assembled intermediary distance pieces, M.sub.F, at the ends, on the sliding blocks, 20, of the assembled lower panel, E; owing to the springs, 19, the sliding blocks, 20, keep the assembled intermediary panel, F, away from the orientation bolts, 15, that are assembled in the upper part of the assembled lower panel, E, (FIG. 5 and FIG. 6) at the Lmd+dep>hp+hb distance; As soon as the downward movement of the first assembled intermediary panel, F, allows it, the next, assembled intermediary panel, F, positions itself, by gliding with the two assembled intermediary distance pieces, M.sub.F, at the ends, on the sliding blocks, 20, of the assembled lower panel, E; owing to the weight of the two previous panels, the first assembled intermediary panel, E, enters, with the unfair holes, o, in the orientation bolts, 15, that are assembled on the upper part of the previous panel: but, owing to the springs, 19, of the previous assembled distance piece, the sliding blocks, 20, keep the next assembled intermediary panel, F, away from the orientation bolts, 15, that are assembled in the upper part of the previous assembled panel, at the same Lmd+dep>hpan+hb distance; When the assembled upper panel, G, gets in vertical position, the special motor, 7, starts and, through the assembly of pieces of the driving unit, C, actuates the Gall chains, 12 and 12, and the upper work driving arms, 13 and respectively 13, thus coming into contact with and pushing down, on the F direction (FIG. 12.1), the coupler jaws, 26, of the assembled upper distance piece, M.sub.G, to the point where the springs, 20, of this last distance piece are completely compressed, to ensure i) the orientation of the assembled upper panel, G, in the orientation bolts, 15, of the one before last panel and ii) the tightening of the entire retractable wall, while complying with the alpha>0 (at least 2-3 cm) condition (FIG. 12), so that the last bearing does not come out from the vertical part of the slot, as and as, in the storage panels, 3 and 3, in other words the vertical part of e size of the slot, a and a; in this position, between the work driving arms, 23 and respectively 23, and the shoulder of the cm and respectively c slots of the small face plates, 24 and 24, a clearance of a few centimetres remains, and the motor, 7, stops through electronic command: For the retracting of the modular wall, the engine, 7, is turned on, the Gail chains, 12 and 12, are actuated simultaneously, the upper work driving arms, 13 and 13, stop pushing onto the coupler jaws, 26, of the assembled upper distance piece, M.sub.G, releasing the springs, 19, and thus allowing the sliding block, 20, to move the assembled upper panel, F, which goes out of the orientation bolts, 15; the lower driving arms, 23 and 23, get to the shoulders of the drive slots, cm and respectively cm, and then drive all the above panels in an upward movement; when the assembled upper panel, G, enters the left-side storage panel, 3, and right-side storage panel, 3, the next assembled intermediary panel, F, in its turn, comes out of the orientation bolts, 15, of the intermediary panel underneath it, thus being able to enter the left-side, 3, and right-side, 3, storage panels; the upward retracting of all the panels in the upper part of the wall ends when the bearings, 21, on the long bolts, 17, of the assembled lower panel, E, reach the dfin>0 distance from the peak, b, between the upper part of the lower slot of the letter F of the left-side storage panels, 3, and right-side storage panels, 3, (FIG. 1, FIG. 1.2, FIG. 1.3, FIG. 10).
BIBLIOGRAPHY
(48) patent US2017328105 patent US2008209827 patent JP2004278060 patent WO2012014245 (A1) patent ES2235666 patent DE202006011746 patent DE19505999 A1
