WO2015193775A1

WO2015193775A1 - Side-scrolling shielding for doors or windows frame equipped with lateral box and small thickness floor guide

Info

Publication number: WO2015193775A1
Application number: PCT/IB2015/054429
Authority: WO
Inventors: Giuseppe FORCINITI
Original assignee: Apz Sistemi Srl
Priority date: 2014-06-17
Filing date: 2015-06-11
Publication date: 2015-12-23

Abstract

Side-scrolling shielding (100) for doors or windows frame equipped with lateral box (102) and small thickness floor guide (125, 1025) comprising: - A lateral box (102) vertically arranged; - a pleated net (101) attached to the lateral box (102); - an upper fixed guide (103) able to guide the movement of said net (101); - a handle bar (108, 1008) fixed to the free end of the net (101); - A movable carriage (114) sliding on the floor guide (125, 1025) and to which the lower portion of the net (101) is attached; - A bottom chute (115), sliding on the floor guide (125, 1025) and connected to the net (101) and to the handle bar (108, 1008), and acting as a guide for the carriage (114) in the passage from the floor guide (125, 1025) to the handle bar (108, 1008); - An upper chute (215) inserted inside the upper fixed guide (103) and connected to the net (101) and to the handle bar (108, 1008); The side-scrolling shielding (100) further comprises: - a first group of wires (130) connected to a first vertical strip (102a) inserted in the box (102), passing transversely through the net (101) and ending on coupling elements (126) of a terminal portion of the carriage (114) passing through the bottom chute (115, 1015), via the path constituted by a second strip (108a) inserted in the vertical handle bar (108, 1008), by the upper chute (215), by a first wire guide element (320) inserted in the upper guide (103), and by wire regulators (128a, 128b) vertically aligned between them and sliding in a groove of the handle bar (108, 1008); and - A second group of wires (230) connected to the second strip (108a), passing transversely through the net (101) and ending on wire regulators (128a, 128b), via the path formed by the first strip (102a), by a second wire guide element (220) inserted in the upper part of the box (102), by the first wire guide element (320) and by the upper chute (215).

Description

DESCRIPTION

"Side-scrolling shielding for doors or windows frame equipped with lateral box and small thickness floor guide"

The present invention relates to a side-scrolling shielding for doors or windows frame equipped with lateral box and small thickness floor guide, of the type used for mounting a pleated shielding.

Different types of side-scrolling shielding or mosquito nets provided with pleated nets, having a floor guide, a box vertically fixed to the upper part of the compartment to be shielded able to collect a sheet of shielding material, and an upper horizontal guide housing the edges of the shielding so as to prevent transverse movements of the shielding itself.

However, these shielding present the main problem of being equipped with a floor guide having a height size of at least 10 mm, which implies a footprint even greater, making it difficult the installation of this type of shielding in small spaces. Moreover, the floor guide comprises wires which are subject to usury and, consequently, to breakage when the floor guide is filled with dust or other impurities. Furthermore, to make the adjustment of the wires and bring them in tension it is necessary to disassemble some components of the shielding.

For this reason, it's preferred to use shielding free of lower floor guide which require the presence of a vertically disposed box in which is located the wrapped net and a cart having joined modules in which the bottom part of the net is connected and which forms a sliding guide. In the extraction phase, the net can be pulled out laterally by the user, by means of a handle bar, and, during the rewinding phase, the net is rewound quickly pulled by a spring comprised within the box.

A known solution is described in the European patent application EP2025858 published on February 18^th, 2009 in the name of Genius Italia S.r.l. This patent application describes a side-mounted or vertically-mounted, pleated mosquito screen comprising netting, where one side of the netting is attached to and held by a fixed vertical upright while the other side is attached to a mobile vertical upright. The latter is designed to be locked into a further fixed upright opposite to the first upright on the opposite side of the opening to which the mosquito screen is fitted and the netting is attached to a pre-tensioning device which uses pull wires located in multiple plugs forming a unit which is substantially vertical so that it can be contained inside the track of the fixed upright and also where the upper wire is led out before the end of the mobile upright is reached and is not led out of the end itself .

Although functional in several respects, such type of shielding are not adaptable to all profiles existing in doors or windows, especially in tight spaces.

Purpose of the present invention is to provide a side- scrolling shielding for doors and windows frame equipped with lateral box and small thickness floor guide, which is not bulky, thus overcoming the limitations of previously described shielding with reference to the known technique.

According to the present invention, a side-scrolling shielding for doors and windows frame equipped with lateral box and small thickness floor guide is provided, as defined in claim 1.

For a better understanding of the present invention a preferred embodiment is now described, purely as non- limiting example, with reference to the accompanying drawings, in which:

- Figures 1A-1B show schematic three-dimensional views respectively assembled and disassembled of a side-scrolling shielding for doors and windows frame equipped with lateral box and small thickness floor guide, according to the invention;

- Figure 2 shows a schematic three-dimensional view of a bottom chute of the side-scrolling shielding for doors and windows frame equipped with lateral box and small thickness floor guide, according to the invention;

- Figures 3A-3B shows schematic three-dimensional views of the bottom portion of the side-scrolling shielding for doors and windows frame equipped with lateral box and small thickness floor guide, according to the invention;

- Figure 4 shows a schematic three-dimensional view of carriage modules of the side-scrolling shielding for doors and windows frame equipped with lateral box and small thickness floor guide, according to the invention;

- Figure 5 shows a schematic three-dimensional view of a bottom cap of the box acting as hooking means for the carriage's modules of the side-scrolling shielding for doors and windows frame equipped with lateral box and small thickness floor guide, according to the invention;

- Figures 6A-6B show schematic three-dimensional views respectively of the small thickness floor guide and of the small thickness floor guide with the carriage coupled to it, according to the invention; - Figure 7 shows a schematic three-dimensional view of the carriage inserted in the small thickness floor guide provided with the bottom chute, according to the invention;

- Figure 8 shows a first schematic three-dimensional bottom view of the side-scrolling shielding for doors and windows frame equipped with lateral box and small thickness floor guide, according to the invention;

- Figures 9A-9B show a second and a third schematic three-dimensional bottom view of the side-scrolling shielding for doors and windows frame equipped with lateral box and small thickness floor guide, according to the invention;

- Figure 10 shows a schematic section view of the side-scrolling shielding for doors and windows frame equipped with lateral box and small thickness floor guide, according to the invention;

- Figure 11 shows a schematic three-dimensional top view of the side-scrolling shielding for doors and windows frame equipped with lateral box and small thickness floor guide, according to the invention;

- Figure 12 shows a schematic three-dimensional view of a top chute of the side-scrolling shielding for doors and windows frame equipped with lateral box and small thickness floor guide, according to the invention; - Figure 13 shows a schematic three-dimensional view of a wire guide element of the box of the side-scrolling shielding for doors and windows frame equipped with lateral box and small thickness floor guide, according to the invention;

- Figure 14 shows a schematic three-dimensional view of a wire guide element of the upper guide of the side- scrolling shielding for doors and windows frame equipped with lateral box and small thickness floor guide, according to the invention;

- Figure 15 shows a schematic three-dimensional view of the wires and the wires' regulators of the a wire guide element of the coupling elements of the carriage of the side-scrolling shielding for doors and windows frame equipped with lateral box and small thickness floor guide, according to the invention;

- Figure 16 shows a schematic three-dimensional view of the wire guide element of the upper guide and of the upper chute with wires' regulators of the handle bar and with pleated net of the side-scrolling shielding for doors and windows frame equipped with lateral box and small thickness floor guide, according to the invention;

- Figure 17 shows a schematic three-dimensional detailed view of the upper chute with wires' regulators able to be inserted in the handle bar of the side-scrolling shielding for doors and windows frame equipped with lateral box and small thickness floor guide, according to the invention;

- Figure 18 shows a schematic three-dimensional detailed view of the upper chute with wires' regulators inserted in the handle bar of the side-scrolling shielding for doors and windows frame equipped with lateral box and small thickness floor guide, according to the invention;

- Figure 19 shows a schematic bi-dimensional view of different elements able to be assembled of the side- scrolling shielding for doors and windows frame equipped with lateral box and small thickness floor guide, according to the invention;

- Figures 20A-20B show schematic a three-dimensional single view and an assembled view of a second embodiment of the handle bar of the side-scrolling shielding for doors and windows frame equipped with lateral box and small thickness floor guide, according to the invention;

- Figures 21A-21B show schematic three-dimensional views of the second embodiment of the handle bar and of the lower chute assembled in the side-scrolling shielding for doors and windows frame equipped with lateral box and small thickness floor guide, according to the invention. With reference to these figures, a side-scrolling shielding for doors and windows frame equipped with lateral box and small thickness floor guide is shown, according to the invention. In particular, figure 1 shows a side- scrolling shielding 100 for doors and windows frame equipped with lateral box and small thickness floor guide comprising: a pleated net 101 hooked to a lateral box 102 vertically arranged; a fixed top guide 103; a vertical closure profile 105 fixed to the vertical wall of the doors or window frame to which the shielding is applied and which serves for locking the net 101 during its extraction from the box 102; a movable carriage 114 having linked modules able to hook the lower portion of the net 101.

The net 101 comprises, at the end that can be extracted from the box 102, a handle bar 108 that allows the user to scroll laterally the net 101, pulling it out easily when it is rolled up inside the box 102 and make it stop abutting the vertical profile 105.

Figure IB shows the separate components of the shielding 100.

Advantageously according to the invention, the shielding 100 comprises a chute 115 having portion acting as an invitation for the modules of the carriage 114. As shown in Figure 2, the chute 115 is formed by a rectangular body 115a having a flat lower base 115b provided with a central hole 115c, useful to secure it to the handle bar 108, and with a parallelepiped protrusion 115d along each lower edge, the two protrusions 115d being parallel each other. In addition, the base 115b ends, at a first end, with a plane appendix 115e to which a first end portion 115f of the rectangular body 115a is shaped. Each outer face of the rectangular body 115a is provided with an open semicircular excavation 115g adjacent to the terminal part 115f and vertically extending from the base 115b, and with a protrusion 115h having the shape of a quarter circle, located at the hollow end opposite to the terminal part 115f . Between the excavation 115g and the protrusion 115h each face is provided with a semi-circular groove 115i. Moreover, the body 115 presents, superiorly, a first pin 1151, in correspondence of the first end portion 115f, a second pin 115m, in correspondence of a central top region, and a third and a fourth pin 115n in correspondence with a second end portion of the body 115a, where the chute 115 engages the net 101.

Figure 3 shows enlarged views of the lower portion of the shielding 100, in which the carriage 114, starting from the box 102, scrolls below the shielding up to engage with the groove 115i of the chute 115, coupled to the handle bar 108, thus being able to rise within a suitable groove 108a of the handle bar 108.

In more details, figure 4 shows a schematic view of the parts comprised in the carriage 114. The carriage 114 comprises, in fact, a first element 114a which acts both as a lower plug of the box 102 and as engagement means with the modules 124 of the carriage 114 able to be linked together. The element 114a is formed by a flat base 114b, comprising centrally a parallelepiped pin 114c having a central parallelepiped hole 114d, and, at the rear edges, two semicircular and parallel wings 114e and 114f centrally provided with a cylindrical through pin 114g and interiorly with a protrusion 114h shaped in such a way as to allow the input and the engagement of a module 124.

Each module 124 is formed by an elliptical body composed of two semi-circular portions 124a and 124b. The first portion 124a is centrally provided with a through pin 124ab and, interiorly, with a protrusion 124ah shaped in such a way as to allow the input and the coupling of a subsequent module 124, from the side of the semicircular portion 124b. The second portion 124b is provided, between its faces, with an internal semicircular groove 124ba and, in each face, with holes 124bb facing each other. Therefore, for two rows of modules 124 able to engage the element 114a, the pin 114g of the wings 114e and 114f of the element 114a is configured to be inserted between the holes 124bb of the first module 124 of each row. The cylindrical through pin 124ab of the first portion 124a of the previous module 124 of each row is configured to be inserted among the holes 124bb of the subsequent modules 124 of each row.

The movable carriage 114, thus formed, can slide on a lower profile 125 interposed between the box 102 and the handle bar 108.

The figure 5 shows the coupling between the element 114a and the bottom of the box 102, by means of the parallelepiped pin 114c.

The figure 6A shows in details the profile 125 which has a central parallelepiped projection 125a extending along the entire length of the profile 125, forming two side rails 125b internal to the profile 125 and acting as guide for the modules 124 of the carriage 114. Figure 6B shows the modules 124 of the carriage 114 inserted into the rails 125b.

According to an aspect of the invention, the lower profile 125 serves as a floor guide and has a thickness of 3 mm . Figure 7 shows the double row of modules 124 concatenated between each other and sliding along the rails 125b of the lower profile 125 on which is engaged the chute 115, whose lower base 115b can slide on the central parallelepiped projection 125a of the profile 125 and whose parallelepiped projection 115d can slide, each, within rails 125b of the lower profile 125. As best shown in figures 8 and 9, each module 124 of each row of modules is channeled into the groove 115i present in each face of the chute 115. So the chute 115 allows the carriage 114 to go up, with the two rows of modules 124, on the handle bar 108 inside a handle bar groove 108c provided both on the front and on the back of the handle bar 108. In addition, the net 101 is clamped between the protrusions 114h of each face of the chute 115, the net 101 being engaged, inferiorly, to the carriage 114.

In fact, each row of modules 124 of the carriage 114 channeled in the groove 115i of the chute 115 ends with a hooking element 126 comprising a portion 126b that is provided, between its faces, with an internal semicircular groove 126ba to accommodate the portion 124a of the last module 124 and, in each face, with holes 126bb each other fitting the through pin 124ab of the last module 124. Each coupling element 126 also comprises a second portion 126a comprising a wire regulator 127 to which is attached a wire 130.

As shown in Figure 10 and 11, the shielding also includes a top chute 215, better shown in figure 12. The chute 215 is also formed of a rectangular body 215a having inner and outer faces and an upper flat base 215b equipped with a central hole 215c, useful to fix the chute 215 to the handle bar, with a pair of central through holes 215k and of through holes 215x, 215y, 215z for each side of the upper base 215b. In addition, the base 215b ends, at a first end, with a flat appendix 215th to which a first end portion 215f of the rectangular body 215a is shaped. Each face of the rectangular body 215a presents, in a location adjacent to the terminal 215f, a semicircular open excavation 215g extending vertically from the base 215b.

Each face presents, in allocation adjacent to the excavation 215g, a rectangular groove 215i, correspondingly below the holes 215x, 215y and 215z of each pair of holes. Moreover, the body 215 interiorly presents a first pin 2151, in correspondence of the first end portion 215f, a second pin 215m, in correspondence of a lower central region, and a third and a fourth pin 215n in correspondence of a second hollow end portion, opposite to the end portion 215f . In fact, in correspondence of this end portion opposite to the end portion 215f, the chute 215 presents a recess or a hole by means of the connection to the net 101 is realized.

As it is better shown in Figure 13, the two wires 130 attached to the wires' regulators 127 of the coupling elements 126 come from a first vertical strip 102a inserted in the box 102 and glued by means of double-sided adhesive to the net 101, provided with six holes with cylindrical grommets 102b, to which they are anchored by means of knots to two holes provided with upper grommets placed each other at a distance of 30 cm or 40 cm depending on the height of the net 101. The wires 130 branch off horizontally from the strip 102a and go across the net 101 up to get a second strip 108a inserted into the handle bar 108, glued to the net 101 by means of double-sided tape and also equipped with six holes with grommets 108b, shown as an example in figure 14. The wires 130 go through the first two holes with upper grommets 108b of the strip 108a and enter into the chute 215 passing individually through the holes 215k and go horizontally towards a first wire guide element 320 placed in correspondence of the profile 105, inside the upper guide 103 to which is connected by means of a screw, as shown in figure 14. The wire guide element 320 is provided with two outermost holes 320a and four inner holes 320b comprised between the two holes 320a. The wires 130 go through the wire guide element 320 by means of the holes 320a and, from here, enter again into the upper chute 215, through the holes 215x, and descend, each of them, within a first hole of upper and lower wire regulators 128b and 128a, vertically aligned and sliding inside the groove 108d of the handle bar 108, to which are connected by means of screws .

The shielding 100 comprises other four wires 230 anchored, also at a distance between them equal to 30 cm or 40 cm depending on the height of the net 101, to the second strip 108a by means of knots to the four holes with lower grommets 108b, as schematically shown for a single wire 230 in figure 15. From figure 10 it is evident that, starting from the strip 108a, the wires 230 run horizontally across the net 101 and enter into the four holes with lower grommets 102b of the first strip 102a and ascend toward a second wire guide element 220, interposed between the box 102 and the upper guide 103, better shown in Figure 13. In fact, the wire guide element 220 is formed substantially by a flat base 220a crossed perpendicularly by a parallelepiped protrusion 220b provided with four through holes 220c. The wires 230 pass through the wire guide element 220 through the holes 220c and at the output are directed horizontally toward the wire guide element 320. In figure 16 it is shown that the wires 230 enter into the holes 320b of the wire guide element 320 and, from here, are directed towards the chute 215. In particular, two of the wires 230 enter into the holes 215y of the chute 215 and two of the wires 230 enter into the holes 215z of the chute 215, directing, each respectively, to a second and a third hole of the upper and lower wire regulators 128b and 128a, to which are connected by knots. More precisely, the wires 230 passing through the holes 215z pass also through both the wire regulators 128b and 128a and are knotted to the latter, while the wires passing through the holes 215y pass also through the only wire regulators 128b to which are knotted. The upper and lower wire regulators 128b and 128a can slide, as shown in figure 17, inside a groove 108c of the handle bar 108 and the upper chute 215 and the lower chute 115 may be interconnected to the handle bar 108 by inserting the pins 1151, 115m, 115n and 2151, 215m, 215n within the handle bar 108.

Advantageously according to the invention, the wires

130 and 230 are made of polyester.

Figure 18 shows the handle bar 108 interconnected to the pleated net 101 and to the upper chute 215, and with the wire regulators 128a and 128b sliding into the groove 108b.

Figure 19 shows an overview of the various parts that can be assembled in the shielding 100.

Advantageously according to the invention, the wires

130 have the function of keeping in tension the pleated net 101, balancing the handle bar 108 and facilitating the sliding of the carriage 114 in dedicated seats arranged inside the handle bar 108.

Advantageously according to the invention, the wires

230 have the function of keeping in tension the pleated net 101.

According to another embodiment of the invention, the handle bar 1008, shown in figure 20A, is provided with a front protrusion 1008e, with lateral flaps 1008f defining grooves 1008c, and with a back protrusion 1008g. Advantageously according to the invention, the lateral flaps 1008f are configured for guiding and containing the up lifting of the carriage 114 inside the grooves 1008c, as shown in figure 20B. In this particular embodiment, the shielding comprises, as a floor guide, a lower profile 1025, interposed between the box 102 and the handle bar 1008, comprising two parallel parallelepiped protrusion 1025a extending along the entire length of the profile 1025, forming two side rails 1025b internal to the profile 1025 and one central rail 1025c comprised between the two side rails 1025b. More in details, as shown in figure 21, the side rails 1025b act as guide for the modules 124 of the carriage 114 and the central rail 1025c is configured to guide the sliding of a bottom chute 1015, as better shown in figure 21A, acting as invitation for the modules of the carriage 114 and connected, at a top end portion, to the back protrusion 1008g of the handle bar 1008. More particularly, the chute 1015 is a rectangular body having a flat lower base and outer faces provided with an open semicircular excavation vertically extending from the flat lower base to the top of the chute 1015 and being configured to guide the modules of the carriage 114 inside the grooves 1008c. The rectangular body of the cute 1015 is provided with a protrusion 10151 able to slide in the central rail 1025c of the lower profile 1025.

Advantageously according to the invention, this second embodiment of the shielding guarantees a reinforced handle bar and a better guiding of the modules of the carriage, both up to the handle bar and along the lower profile.

The Applicant has verified that the shielding 100 can be installed in small spaces because the maximum total size is equal to 23 mm. Therefore, the side-scrolling shielding for doors or windows frame equipped with lateral box and small thickness floor guide according to the invention allows to move the wires from the lower guide to the upper guide and to replace the lower guide with the carriage having separate modules sliding on the small thickness floor guide, so as to obtain a minimum overall dimensions of the shielding in the compartment to be shielded.

Another advantage of the side-scrolling shielding for doors or windows frame equipped with lateral box and small thickness floor guide according to the invention consists in the fact that the adjustment of the wires can take place easily, being the wire regulators visible, so that it's not necessary to disassemble the different components of the shielding for adjusting the wires.

Finally, the side-scrolling shielding for doors or windows frame equipped with lateral box and small thickness floor guide according to the invention is easily adaptable to existing profiles just behind small modification of the handle bar.

Finally it is clear that the side-scrolling shielding for doors or windows frame equipped with lateral box and small thickness floor guide described and illustrated here can be modified and varied without departing from the protective scope of the present invention, as defined in the appended claims.

Claims

1. Side-scrolling shielding (100) for doors or windows frame equipped with lateral box (102) and small thickness floor guide (125, 1025) comprising:

- A lateral box (102) vertically arranged;

- a pleated net (101) attached to the lateral box (102) ;

- an upper fixed guide (103) able to guide the movement of said net (101) ;

- a handle bar (108, 1008) fixed to the free end of the net (101) ;

- A movable carriage (114) sliding on the floor guide (125, 1025) and to which the lower portion of the net (101) is attached;

- A bottom chute (115, 1015), sliding on the floor guide (125, 1025) and connected to the net (101) and to the handle bar (108, 1008), and acting as a guide for the carriage (114) in the passage from the floor guide (125, 1025) to the handle bar (108, 1008);

- An upper chute (215) inserted inside the upper fixed guide (103) and connected to the net (101) and to the handle bar (108, 1008) ;

characterized in comprising: - a first group of wires (130) connected to a first vertical strip (102a) inserted in the box (102), passing transversely through the net (101) and ending on coupling elements (126) of a terminal portion of the carriage (114) passing through the bottom chute (115, 1015), via the path constituted by a second strip (108a) inserted in the vertical handle bar (108, 1008), by the upper chute (215), by a first wire guide element (320) inserted in the upper guide (103), and by wire regulators (128a, 128b) vertically aligned between them and sliding in a groove of the handle bar (108, 1008) ; and

- A second group of wires (230) connected to the second strip (108a), passing transversely through the net

(101) and ending on wire regulators (128a, 128b), via the path formed by the first strip (102a) , by a second wire guide element (220) inserted in the upper part of the box

(102) , by the first wire guide element (320) and by the upper chute (215) .

2. Side-scrolling shielding (100) for doors or windows frame equipped with lateral box (102) and small thickness floor guide (125, 1025) according to claim 1, characterized in that the first vertical strip (102a) comprises six holes with grommets (102b), the wires (130) being anchored to the two upper holes with grommets (102b) and the four lower holes with grommets (102b) being crossed by the wires (230) .

3. Side-scrolling shielding (100) for doors or windows frame equipped with lateral box (102) and small thickness floor guide (125, 1025) according to claim 1, characterized in that the second strip (108a) comprises six holes with grommets (108b), the two upper holes with grommets (108b) being crossed by the wires (130) and the wires (230) being anchored to the two lower holes with grommets (108b) .

4. Side-scrolling shielding (100) for doors or windows frame equipped with lateral box (102) and small thickness floor guide (125, 1025) according to the previous claims, characterized in that the upper chute (215) comprises a body (215a) having an inner face and an outer face comprising:

- An upper base (215b) provided with at least a central hole (215c) for connection to the handle bar (108), with a pair of central through holes (215k) crossed by the wires (130) coming from the two upper holes with grommets (108b) of the second strip (108a) and, laterally, with through holes (215x, 215y, 215z), the through holes (215x) being crossed by the wires (130) coming from the first wire guide element (320) and the holes (215y, 215z) being crossed two by two by the wires (230) coming from the first wire guide element (320), the upper base (215b) terminating, at a first end, with an appendix (215e) to which a first end portion (215) of the body (215a) is shaped;

- At least one open excavation (215g) vertically extending on each face of the body (215a) and adjacent the end portion (215f);

- At least one groove (215i) adjacent to the excavation (215g) of each face in correspondence of the holes (215x, 215y, 215z) and crossed by the wires (130, 230) directly to the wire regulators (128a, 128b);

- At least a first lower pin (2151), in correspondence of the first end portion (215f), at least a second lower pin (215m), in correspondence of a lower central region of the body (215a) , and at least a third and a fourth lower pin (215n), in correspondence of a second hollow end portion to which the net (101) is attached, the pins (2151, 215m, 215n) being configured to fit inside the handle bar (108) .

5. Side-scrolling shielding (100) for doors or windows frame equipped with lateral box (102) and small thickness floor guide (125, 1025) according to the previous claims, characterized in that two of the wires (230) are configured to pass through the holes (215y) going, each respectively, towards the wire regulators (128b) to which they are connected and the other two wires (230) are configured to pass through the holes (215z), going, each respectively, toward a second and a third hole of the wire regulators (128a, 128b) to which they are connected.

6. Side-scrolling shielding (100) for doors or windows frame equipped with lateral box (102) and small thickness floor guide (125, 1025) according to claims 1 and 3, characterized in that the first wire guide element (320) is provided with two outer holes (320a) and four inner holes (320b) comprised between the two outer holes (320a), the outer holes (320a) being crossed by the wires (130) coming from the two upper holes with grommets (108b) of the second strip (108a) and the inner holes (320b) being crossed by the wires (230) coming from the second wire guide element (220) .

7. Side-scrolling shielding (100) for doors or windows frame equipped with lateral box (102) and small thickness floor guide (125, 1025) according to claims 1 and 2, characterized in that the second wire guide element (220) is formed by a flat base (220a) crossed perpendicularly by a protrusion (220b) provided with through holes (220c) crossed by the wires (230) coming from the four lower holes with grommets (102b) of the first vertical strip (102a) .

8. Side-scrolling shielding (100) for doors or windows frame equipped with lateral box (102) and small thickness floor guide (125, 1025) according to claim 1, characterized in that the carriage (114) comprises a first element (114a) acting as a bottom cap of the box (102) and as engagement with the carriage modules (124) and comprising a flat base (114b), centrally comprising at least a pin (114c) having at least a central hole (114d), and, at the rear edges, two wings (114e, 114f) parallel to each other centrally provided with at least a through pin (114g) and, interiorly, with protrusions (114h) shaped so as to allow the input and the coupling of at least one module (124) and between which one end of the net (101) is fixed.

9. Side-scrolling shielding (100) for doors or windows frame equipped with lateral box (102) and small thickness floor guide (125, 1025) according to claim 1, characterized in that the modules (124) comprise an elliptical body composed of semicircular portions (124a, 124b), the portion (124a) provided centrally with at least a through pin (124ab) and, interiorly, of at least one protrusion (124ah) shaped so as to allow the input and the coupling of an adjacent module (124) via its semicircular portion (124b) having, between its faces, at least one inner groove (124ba) and, in each face, holes (124bb) facing each other.

10. Side-scrolling shielding (100) for doors or windows frame equipped with lateral box (102) and small thickness floor guide (125, 1025) according to the claims 8-9, characterized in that the carriage (114) comprises at least two rows of modules (124) adapted to engage the element (114a), the pin (114g) of the wings (114e, 114f) inserting between the holes (124bb) of the first module

(124) of each row and the through pin (124ab) of the first portion (124a) of the previous module (124) of each row inserting between the holes (124bb) of the successive modules (124) of each row.

11. Side-scrolling shielding (100) for doors or windows frame equipped with lateral box (102) and small thickness floor guide (125, 1025) according to claim 1, characterized in that the floor guide (125, 1025) has a thickness of 3 mm.

12. Side-scrolling shielding (100) for doors or windows frame equipped with lateral box (102) and small thickness floor guide (125, 1025) according to claim 1, characterized in that the floor guide (125) is a profile

(125) equipped with at least a central projection (125a) extending along the entire length of the profile (125) and forming internal side rails (125b) guiding the modules (124) of each row of modules (124) .

13. Side-scrolling shielding (100) for doors or windows frame equipped with lateral box (102) and small thickness floor guide (125, 1025) according to claims 1 and 10-12, characterized in that each row of modules (124) ends with the coupling element (126) comprising a portion (126b) having, between its faces, at least one inner groove (126ba) for receiving the portion (124a) of the last module (124) and, in each face, holes (126bb) facing each other and fitting the through pin (124ab) of the last module (124), each coupling element (126) also including a second portion (126a) comprising a wire regulator (127) to which to at least one wire (130) is coupled.

14. Side-scrolling shielding (100) for doors or windows frame equipped with lateral box (102) and small thickness floor guide (125, 1025) according to claim 1, characterized in that the bottom chute (115) comprises a body (115a) comprising:

- A lower base (115b) provided with at least a central hole (115c) for connection to the handle bar (108) and lower lateral protrusions (115d) parallel to each other and terminating, at a first end, with an appendix (115e) to which a first end portion (115f) of the body (115a) is shaped; - At least one open excavation (115g) vertically extending on each face of the body (115a) and adjacent the end portion (115f);

- At least one protrusion (115h) at the hollow end opposite to the end portion (115f ) ;

- At least one groove (115i), comprised between the excavation (115g) and the protrusion (115h), within which the carriage (114) is able to slide;

- At least a first upper pin (1151), in correspondence of the first end portion (115f), at least a second upper pin (115m), in correspondence of an upper central region of the body (115a) , and at least a third and a fourth pin (115n) in correspondence of a second end portion of the body (115a) to which the net (101) is fixed.

15. Side-scrolling shielding (100) for doors or windows frame equipped with lateral box (102) and small thickness floor guide (125, 1025) according to claim 1, characterized in that the handle bar (1008) is provided with a front protrusion (1008e), with lateral flaps (1008f) defining grooves (1008c) and with a back protrusion (1008g), the lateral flaps (1008f) being configured for guiding and containing the up lifting of the carriage (114) inside the grooves (1008c) .

16. Side-scrolling shielding (100) for doors or windows frame equipped with lateral box (102) and small thickness floor guide (125, 1025) according to claims 1 and 15, characterized in that the floor guide (1025) is a profile (1025) equipped with two parallel central projection (1025a) extending along the entire length of the profile (1025) and forming internal side rails (1025b) guiding the modules (124) of each row of modules (124) and a central rail (1025c) comprised between the side rails (1025b) configured to guide the sliding of the bottom chute (1015) acting as invitation for the modules (124) and connected, at a top end portion, to the back protrusion (1008g) of the handle bar (1008) .

17. Side-scrolling shielding (100) for doors or windows frame equipped with lateral box (102) and small thickness floor guide (125, 1025) according to claims 1, 15 and 16, characterized in that the bottom chute (1015) is a rectangular body having a flat lower base and outer faces provided with an open semicircular excavation vertically extending from the flat lower base to the top of the chute (1015) and being configured to guide the modules (124) inside the grooves (1008c), the rectangular body of the cute (1015) being provided with a protrusion (10151) able o slide in the central rail (1025c) of the lower profile (1025) .