GR20150100497A - Energy absorption element meant for the smooth fall of workers - Google Patents

Abstract

Novelty: an arrangement of elements designed for the amortization of the energy exerted on the worker’s body falling on the ground is disclosed. Technical features: performance is ensured by a belt which maintains its initial length, following its split into two parts (31a,31b) derived by the unraveling of the seams 32. An incorporated alarm is liable to automatically emit sound signal, electronic signal with transponder for warning in case that an accident occurs in darkness or in case where voluntary warning by the worker is not feasible.

Description

DESCRIPTION

ENERGY ABSORPTION ELEMENT FOR THE SMOOTHING OF

EMPLOYEE FALL.

FIELD OF THE ART.

The invention relates to the art of energy absorption elements, the anti-fall belts of workers at heights, with which the absorption of a sufficient amount of the energy exerted on the worker resulting from the sudden force exerted on him during his fall is achieved towards the ground and the adverse effects otherwise arising from the high forces exerted suddenly during watering are minimized.

THE HISTORY OF THE INVENTION

It is known that the majority of injuries and even deaths of workers at heights are related, in a high percentage, to the phase of their fall to the ground, while the shock from the impact force of the anti-fall belts is high and even increases excessively as the distance increases of fall, the weight of the worker, and the weight of the load that may be carried. In the prior art, despite significant improvement in the art of energy absorbing elements for emergency equipment, injuries to workers are still a problem today.

In particular, excessive descent speed due to height, and the weight of the worker, have been identified and confirmed as a key factor in worker shock injuries from impact force. Falling injuries to workers are often caused by the high speed at the time of impact with the fall arrest straps. The resulting impact force during descent means that workers descend at high speed, and hit the shock with significantly greater force, making them susceptible to injury. Energy absorbing elements used by workers have been in service for many years with significant modifications, and many efforts have been made in recent years to mitigate fall velocity problems for workers.

It is therefore an object of the invention to address the above-mentioned problem of the prior art, by proposing the provision of workers' anti-fall belts with an arrangement of energy absorbing elements, with which the reduction of the otherwise high force of the worker's weight and the load he carries is achieved , as well as the reduction of the resulting impact force after the workers' anti-fall belts.

It is an object of the invention to propose the above-mentioned arrangement of energy-absorbing elements consisting of an element that ends up being connected to a safety belt buckle on the back of workers, while the above-mentioned energy-absorbing element consists of a belt of a certain length, where at least one part of the belt is folded to half its original length and the two resulting half-lengths of strap are stitched together with a plurality of transverse seams, wherein one end of the above-folded and transversely stitched strap portion is connected to a first coupling element at the end of the anti-fall strap, and its other end is connected to a second coupling element corresponding to said safety belt buckle on the worker's back, where by activating the above energy absorption elements at a certain time during the worker's fall to the ground, separation of the above-mentioned number of transverse seams in the folded the and stapled part of the belt, and as a result of such detachment, a force countervailing the force of the worker's weight is exerted, and the final speed of the worker's fall is slowed down.

It is thus a main object of the present invention to propose application of the proposed energy absorbing elements for damping the energy exerted on workers during the fall, where they are stitched with a plurality of transverse seams of the above folded and transversely stitched belt part, where for a smaller storage space the uniform folding of the belt contributes to the small thickness of the element, and advantageously small space for placing the element.

The use of folded belts as energy absorbing elements has been made known by the Greek Patent GR-1003447 and the European EP 1069008, where such elements are applied to the safety belts of car passengers and provide a certain protection against the forces exerted suddenly by the belts of the belt of safety to those strapped to it, as seatbelted occupants of the vehicle due to inertia tend to move forward in the event of a collision, resulting in an instantaneous high-pressure impact, which comes to absorb to a certain extent the said energy-absorbing elements.

A disadvantage associated with the use of such prior art energy absorbing elements in vehicle safety belts is the excessive expansion of the belt of the safety belt during the action of the element, due to the fact that, due to the cutting of the transverse seams of the folded double S or V section of strap, the length of the element is doubled and the shoulder strap is extended by a corresponding length. This fact effectively renders the safety element partially ineffective in that, due to excessive belt extension, the tethered torso may be thrown too far forward resulting in injury. If, to overcome this disadvantage, the length of the energy absorbing element is reduced and therefore the extension of the belt is reduced, the energy absorbing capacity is correspondingly reduced.

Also, the use of folded straps as energy absorbing elements has been made known by the Greek Patent Application with number: 20140100569, and U.S. Application Number 14/756,969, where such elements are applied to parachutes for gentle, smooth, low impact speed.

It is thus an additional object of the present invention to propose the application of the proposed energy absorption elements for the damping of the energy exerted on a worker during his fall to the ground, where the full performance of absorbed energy is obtained without extending the length of the element's belt, which retains the same original length after the shearing of the transverse seams.

It is therefore a primary object of the present invention to provide an energy absorbing element suitable for advantageous adaptation to workers' fall arrest harnesses due to a proposed short extension length of the energy absorbing element during its pre-impact action, as the length of the element remains the same before and after the action of the element, and due to it linearly, along the element itself performed cut-off between transverse belt stitching which implies a smooth, linear absorption of the energy and a smaller operating space.

In order to deal with cases of immediate warning of an accident to a worker on the personal ground in the dark or other cases where voluntary warning by the worker is not possible, the automatic alarm activation of the proposed arrangement of energy absorption elements, and it is proposed to equip the arrangement with an alarm device integrated in said elements through which an audio signal is emitted, an electronic signal with a transceiver, upon activation of the proposed automatic electronic activation of the proposed alarm device of the energy absorption elements, and an automatic electronic pause with a button under the worker.

It is a further object of the present invention to provide the proposed alarm system suitable for advantageously adapting to an energy absorbing element and starting operation at a certain time at the start of the fall.

It is a further object of the invention to provide the proposed for advantageous adaptation to belts of energy absorbing elements with parameters design specifications, which include the overall length of the element, which defines the effective length of linear displacement of the arm along the belt, the number of transverse seams by the cut-off length of the belt and the strength of the sewing thread of the transverse seams, where these parameters are determined according to the nominal value of the energy that the elements are required to absorb in any case, in combination with the weight of the worker including the weight of the equipment he carries .

BRIEF DESCRIPTION OF THE DRAWINGS.

Exemplary embodiments of the invention will now be described with reference to the accompanying drawings.

Figure 1 shows a perspective view of the energy absorbing element, before its action, according to a first preferred embodiment of the invention, where the folded strap of the element is shown.

Figure 2 shows a perspective view of the energy absorbing element, with the coupling elements it is composed of, according to a first preferred embodiment of the invention, where the folded belt is shown unfolded lengthwise.

Figure 3 shows a perspective view of the energy absorption element shown in Figure 1.

Figure 4 presents a perspective view of the energy absorbing element illustrated in Figure 3, where the folded belt is shown stretched lengthwise, prior to its action.

Figure 5 shows a perspective view of the energy absorption element shown in Figure 4, after its action.

Figure 6 shows a perspective view of the energy absorbing element, according to a second preferred embodiment of the invention, where the folded belt is shown stretched lengthwise.

Figures 7, 9, 10 show in a perspective view the arrangement of alarm elements proposed in the present invention before their action.

Figure 8 shows a perspective view of the worker attached to the energy absorbing element, prior to its action, by means of the safety belt and fall arrest strap.

Figures 11, 12, 13 show a perspective view of the tethered worker during his fall, equipped with the proposed in the present invention arrangement of alarm elements defined at a suitable point on the activated energy absorption element, and the proposed arrangement of alarm elements during their action .

DETAILED DESCRIPTION OF PREFERRED APPS

Referring now to the accompanying drawings, we will describe illustrative, preferred embodiments of the invention. As a finished final product, the energy absorption elements (30), of Figures (1, 2, 3, 4, 5, 6, ) of the device of the invention, as illustrated in Figures (8,13) is adapted with an upper end to the ring "D" part (56), of the anti-fall strap (55), to which the worker (35) is connected, and to the hook (61), of the anti-fall strap (55), is connected by a strap (63 ), on the strong rod (62), and the lower end of the element (30) is connected to the "D" part of the ring (51), of the safety belt (50), worn on the back between the shoulders by the worker (35).

The energy absorption element (30) of the invention Figure (1, 2, 3, 4), consists of a belt (31) of a certain length, which presents parallel, equal edges (1a, 1b) of greater length, which during its operation of the element extend vertically, and a pair of other parallel edges (1c, 1d) of short length, which during the operation of the element extend horizontally. In accordance with this construction, the length of the element (30) means the length of the sides (1a) and (1b) and the width of the element means the length of the sides (1c) and (1d). A selected portion of the strap (31) is folded to half its original length and the two resulting half strap lengths (31a, 31b) are stitched together with a plurality of transverse seams (32). One end of the element (30) is connected Figure (8), with a first coupling element (70) to the end fitting "D" ring (56), provided at the end of the anti-fall strap (55), and the other second coupling element (80), at the end of the above element (30) is connected to the corresponding part "D" of ring (51) of the safety belt (50), which is worn intermediately on his shoulders and the worker (35) is connected.

The aforementioned first coupling element (70) is a plate of generally rectangular shape with a width corresponding to the width of the strap (31) which forms at the end of the suspension hook (71). It also includes an additional cross arm (72), which extends parallel to the suspension hook (71), and as shown in Figure (2) an opening (73) is created between the arm (72) and the suspension hook (71).

The lower end of the strap (31) is connected to the coupling element (70) with its edge (1d) passing through the opening (73) and then folded back creating a loop opening (74), in Figure (4) which encloses the arm (72) of the coupling element and then the edge end (1d) of the belt is abutted and firmly stapled along the thread point line (75) of the belt (31). Thus the arm (72) is trapped in the opening of the loop (74) of the belt so that the coupling element (70) in question can no longer exit being obstructed by the transversely extending arm (72) which extends across the entire width of the belt (31 ) that surrounds him.

The other aforementioned second coupling element (80) is a plate of generally rectangular shape with a width corresponding to the width of the strap (31), which at one end includes a suspension hook (81). It also includes an additional cross arm (82), which extends parallel to the suspension hook (81). As shown in Figure (2) an opening (83) is created between the arm (82) and the upper hook end surface (81).

The upward movement of the coupling component (80) through the traction exerted by the anti-fall belt (55), results in the activation of the energy absorption element (30) of the device of the invention and the tearing of the seams (32) with to which the belt lengths (31a, 31b) of the certain folded in half of the original length selected part of the belt (31) are stapled and the due to this the exercise of a countervailing force to the force of the weight of the worker (35) after the weight of the equipment of, which evens out the descent and the impact force after the anti-fall belt (55), during the shock, as the fall and the final impact speed of the worker (35) on the anti-fall belt (55) are slowed down, by the shock, and the otherwise expected adverse effects of the impact are minimized.

According to a first embodiment of the invention as illustrated in Figures (2, 4, 5), the aforementioned selected part of the belt (31), which is folded longitudinally to half of its original length creating two tangential half lengths of belt (31a, 31b ), is the total length of the belt, which extends from one end (1c) to the other end (1d) of the belt (31). As shown in Figures (1, 2, 4), the strap (31) for tying the end of (1d) to the coupling element (80) passes through the opening (83) of the coupling element (80) and at this point separating the two lengths of strap (31a, 31b) in order to form an opening (84), which surrounds the cross arm (82) of the coupling element (80), to then stitch the two lengths of strap (31a, 31b) with a plurality of transverse seams (32) further its remaining length, which according to a preferred embodiment of the invention is stapled at intervals with a predetermined construction, for uniform folding along the entire length, of the part of the belt (31), with the purpose of folding for functional reasons the thickness of the element should be significantly smaller. In this case, in Figure (1), before the activation of the energy absorption element, the uniform folding of the belt (31) contributes to the small thickness of the element. According to Figure (2, 3), the two lengths of strap (31a, 31b) are stitched together with a plurality of transverse seams (32), but at (points 1, 2, 3, 4) where a fold (curve) occurs along of the belt (31), there are approximately (2 n<'>3) transverse or vertical seams (32), in order to avoid resistance of the belt (31), when it is folded, (curve), at the points, and finally the increase of the thickness of the belt (31), in order to advantageously ensure a small installation space for the element (30). To hold the folded portion in place, at (points 1, 2, 3, 4), Figure (1), yarn stitches (32a, 32b, 32c, 32d) are shown, which are cut off when the stapled and wrapped by folding a length of strap.

In this case, when the movable coupling element (30) is subjected to a force that exceeds a predetermined value, the arm (82) carries out the separation of the predetermined transverse seams (32) and separates the two stitched tangential lengths (31a) and (31b) of the belt from a point (35) located after the mounting area of the coupling part (80), up to the end of the belt thus ensuring the absorption of the energy manifested as a result of the force suddenly exerted by the anti-fall belt (55), when activating the energy absorbing element (30). As graphically depicted in Figures (4 and 5), the element (30) in this case maintains exactly the same length before and after the separation of the predetermined part of the belt (31).

By using the energy absorbing element (30) according to the above first preferred embodiment of the invention, additional significant advantages are achieved, such as the smoothing of the cut of the belt (31) with the linear, parallel to the main surface of the belt (31), displacement of the movable coupling element (80) as it is pulled by the "D" ring fitting (56), the anti-fall belt (55), and the linear displacement of the point of application of the force during the course of the belt cut (31) , and entailing the progressive simultaneous deformation of the belt to be cut off, as well as distribution of the force along the entire length of the arm (82) and therefore over the entire width of the cut seams (32) of the belt (31), throughout the cutting period . Thus, the use of the independent load transfer component (80) of the element (30), enables an incomparably more accurate and easier design of the entire energy absorbing element for attachment systems of the main anti-fall straps (55), as the execution becomes predictable with accuracy in his behavior in practice. The total length of the element (30), which defines the effective length of linear displacement of the arm (82), along the belt (31), is also, similarly in each case, a factor in determining the nominal value of the absorbed energy.

According to the first application of the invention as illustrated in Figures (1, 3, 4, 5, 6, 7, 8, 13), the element includes an alarm (90), Figures (7, 11, 12), consisting of a box (91), firmly fixed onto element (30). Such an alarm device (90) is shown in Figures (1, 4, 6, 7, 8, 11, 13), preferably attached to the fixed non-detachable portion of the strap (31) near the end attached to the coupling element (70). . It includes an electronic signal transmitter (92), with a siren (93), and a flash lamp (94), a transceiver (95), on the side of the worker (35), Figure (9), to amplify the signal coming from from a signal transmitter (92), and a signal receiver (96), Figure (10), to the work coordination center. The proposed alarm device (90), inside the box (91), also includes an electric battery (101) for power supply. The activation of the proposed alarm device is automatic electronic activation and automatic electronic pause with button (105), under the worker. Due to the accidentally attached torso of the worker's body (35), it can be thrown too far forward resulting in his injury, and inability to notify the center due to fainting, etc., so the work is quickly taken over by the transceiver (95), on the side of the worker (35), and the receiver (96), in the work coordination center.

The activation of the proposed alarm device (90)) is automatic electronic activation Figure (11), of the alarm (90), in the box (91), and is performed simultaneously with the upward movement of the coupling part (80), Figure (12 ), through the traction exerted by the anti-fall belt (55), and has as a consequence the activation of the energy absorption element (30) of the device of the invention and the tearing of the seams (32). In this case Figure (5), when the coupling element ((80) moves upwards the cross arm (82) pulls with a strong thread (97), and the attached plastic safety pin (98), of the alarm (90), inside the box (91), where the automatic electronic activation of the alarm (90) is then performed, with the connection between the contacts (99a, 99b), the steel wires (99), the alarm (90), and simultaneously activating all of the parts of the alarm (90), such as: signal transmitter (92), the siren (93), the flash lamp (94), the transceiver (95), on the worker's side (35), and the receiver (96), in the work coordination center.

According to a second application of the invention as illustrated in Figure (6) in the one phase before using (tearing) the seams (32) of the belt respectively, the aforementioned selected part of the belt (31), which is folded longitudinally in half of its original length creating two tangential belt half-lengths (31a, 31b), is a single part of the belt (31) and not the entire length of the belt as in the aforementioned first embodiment. As shown in Figure (6), the strap (31) has its end (1d) attached to the coupling element (70) similarly as in the previous case. The strap (31) is then folded over to form the two tangent half-lengths of strap (31a, 31b), which are then stitched with a plurality of cross stitches (32) for the remaining length of the strap, which is preferably folded over, where a last part of the strap terminates in a folded end forming an opening which wraps around the cross arm (82) of the coupling element (80) and is thereby fixedly attached to the coupling element (80). In this case, when the mobile coupling element (80) is subjected to a force that exceeds a predetermined value, the coupling component (80) through the arm (82) exerts a pulling force and performs the separation of the predetermined transverse seams (32) by separating the two stitched tangential lengths ( 31a) and (31b) of the belt and thus ensuring the absorption of the energy manifested as a result of the force suddenly exerted by the anti-fall belt (55) upon activation of the energy absorption element (30).

As graphically depicted in Figure (6), the element (30) in this case does not maintain the same length before and after the tear off of the predetermined folded stitched part of the belt (31), but has after the end of the tear off a length corresponding to the sum of a first fixed portion from the coupling element (70) to the start of folding and to the deployment of the strap length (31a) and the strap length (31b). This increase in the length of the belt possibly makes those manufactured according to this second application of the invention partially unsuitable for their application in safety systems because the extension of the belt is excessive in action, in relation to the elements of the first proposed application where the belt maintains the same length after its action.

It is noted that the strap (31) may be made of any suitable woven material, or other strong material composition suitable for stitching with any suitable durable thread. The energy absorbing elements (30) of the invention, depending on the nominal value of the energy they are required to absorb in each case, which is a function of the fall height, the weight of the worker, and the load he carries, are manufactured with an appropriate design of the parameters them, which can be mainly the number of transverse or longitudinal stitches of thread stitches (32) along the cut length of the belt (31), depending on the strength of the thread (32) of its stitching.

Furthermore, the length of the belt (31), which according to a preferred embodiment of the invention is wrapped with a predetermined construction, uniform folding (curve) in the dimensions at intervals along the entire length, of the part of the belt (31), with the aim of folding the thickness of the element to be significantly smaller for functional reasons, exactly as described in the previous first application of the invention, i.e. at (points 1, 2, 3, 4) along the belt (31), where the folding (curve) of the strap (31), there are no cross seams (32),

The element (30), includes an alarm (90), consisting of a box (91), included in exactly as described in the previous first application of the invention.

The activation of the proposed alarm device (90)) is automatic electronic activation and is attached to the fixed non-detachable part of the strap (31) near the end attached to the coupling element (70).

The energy absorbing elements of the device of the invention can be re-stitched after their operation to be ready for their next use.

It should be noted here that the description of the invention has been made with reference to illustrative examples of application to which it is not limited. Thus, any change or modification regarding the described shapes, sizes, arrangements, materials and construction and assembly components, techniques applied to the construction and operation of the elements of the invention, as long as they do not constitute a new inventive step and do not contribute to the technical development of what is already known, are considered included in the aims and objectives of the present invention, as specified in the following claims.

Claims (7)

1. Arrangement of energy absorption elements (30) for reducing the forces exerted on a worker (35), falling to the ground, under the action of the anti-fall belt (55), characterized in that it consists of an element (30), for the anti-fall strap (55), which ends up being connected to the worker's back (35), where an upper end of the energy absorbing element (30) is connected via a first coupling element (70), with an upper end thereof to the component " D" ring (56), of the anti-fall belt (55), to which the worker (35) is connected, and to the hook (61), of the anti-fall belt (55), is connected by means of a belt (63), on the strong rod (62), and the other second coupling element (80), at the end of the above element (30) is connected to the corresponding part "D" of the ring (51) of the safety belt (50), which he wears intermediately on his shoulders and the worker (35) is connected, where said energy absorption element (30) consists of a belt (31) of a certain length m with a selected portion of the strap (31) folded to half its original length and the two resulting half-lengths of the strap (31a, 31b) stitched together with a plurality of transverse seams (32), and when the worker (35) falls, the upward movement of the coupling component (80) through the traction exerted by the anti-fall belt (55), results in the activation of the energy absorption element (30) of the device of the invention and the separation of the seams (32) with which they are sewn the belt lengths (31a, 31b) of the selected part of the belt (31) folded in half of its original length and the resulting countervailing force to the force of the worker's weight (35), which both smoothes the descent and the impact force of the anti-fall belt (55), during the shock, as the fall is slowed and the final impact speed of the worker (35) on the anti-fall belt (55). 2. Arrangement of an energy absorbing element (30) for reducing the forces exerted on a worker (35) falling from a height to the ground, according to claim 1, characterized in that said first coupling element (70) is a plate with generally rectangular shape and width corresponding to the width of the belt (31), which at one end includes a bracket (72) and at the other end ends in a suspension hook (71) connected to the aforementioned end part "D" of the ring (56), of the anti-fall strap (55), wherein in said first coupling element (70) the transverse arm (72) extends parallel to the suspension hook (71), and an opening (73) separates the arm (72) and the suspension hook ( 71), and said second coupling element (80) is a plate of generally rectangular shape with a width corresponding to the width of the belt (31), which at one end includes a suspension hook (81), and at the other end of the cross arm (82), which ext parallel to the suspension hook (81), and an opening (83) is created between the arm (82) and the upper end surface of the hook (81), and the strap (31) for tying the end of (1d) to the coupling element (80) passes through the opening (83) of the coupling element (80) and at this point the two lengths of strap (31a, 31b) are separated, in order to form an opening (84), which surrounds the cross arm (82) of the coupling element (30), to then stitch the two lengths of the strap (31a, 31b) with a plurality of transverse seams (32) further the remaining length thereof is wound with a predetermined uniform folding at intervals along the entire length of the portion of the strap (31). 3.           Arrangement of energy absorption elements (30) for reducing the forces exerted on a worker (35), falling under the action of the anti-fall belt (55), during his fall to the ground, characterized in that said selected part of the belt (31), which is folded longitudinally to half its original length creating two tangential half belt lengths (31a, 31b), is the entire length of the belt, which extends from one end (1c) to other end of (1 d), where the strap (31) after tying the end of (1d) to said second coupling element (80), where when the movable coupling element (80) is exerted with a force exceeding a predetermined value, it performs the detachment of the predetermined transverse seams (32) and separates the two stitched tangential lengths (31a) and (31b) of the belt from a point (35) to the end of the belt ensuring the absorption of the energy manifested as a result of the suddenly exerted by the anti-fall strap (55), to which the worker (35) is connected by force, upon activation of the energy absorbing element (30), which maintains exactly the same length before and after the separation of the predetermined part of the strap (31) ). 4. Arrangement of energy absorption elements (30) for reducing the forces exerted on a worker (35), falling under the action of the anti-fall belt (55), during his fall to the ground, according to claim 1, characterized in that said selected portion of the strap (31), which is folded longitudinally to half its original length to create two tangential half-lengths of the strap (31a, 31b), is a portion of the strap (31), which has the end of (1d) attached to the coupling element (70), and then the strap (31) is folded over to form the two tangential half-lengths of the strap (31a, 31b), which are then stitched with a plurality of transverse seams (32) for the remaining length of the strap, where a final portion of the strap terminates in a folded end forming an opening (84) which is wrapped around the cross arm (82) of the coupling element (80) and fixedly attached thereto, where when in the movable coupling element (80) ask is a force exceeding a predetermined value, the coupling member (80) through the arm (82) exerts a pulling force and performs the separation of the predetermined transverse seams (32) separating the two stitched tangential lengths (31a) and (31b) of the belt and ensuring thus the absorption of the energy manifested as a result of the force suddenly exerted under the anti-fall belt (55) upon activation of the energy absorption element (30). 5. Arrangement of energy absorption elements (30) for reducing the forces exerted on a worker (35), falling under the action of the anti-fall belt (55), during his fall to the ground, according to claim 1, characterized from the fact that the two lengths of the strap (31a, 31b) are stitched with seams (32), and the folding points (points 1, 2, 3, 4) of the strap (31) are not stitched and there are no transverse or vertical seams ( 32), in order to advantageously ensure a small volume and space for placing the element (30), both lengths of the belt (31a, 31b) wrapped by folding are assembled by thread (32a, 32b, 32c, 32d). 6. Arrangement of energy absorption elements (30) for reducing the forces exerted on a worker (35), falling under the action of the anti-fall belt (55), during his fall to the ground, according to claim 1, characterized in that it includes an alarm (90), with a box (91), an electric battery (101), a signal transmitter (92), a siren (93), a flash lamp (94), a transceiver (95), a receiver signal (96), pause button (105) under the worker, and the alarm (90) is attached to the fixed non-detachable part of the belt (31), and when the coupling part (80) moves, the cross arm (82) pulls with a strong thread (97), and the attached plastic safety pin (98), of the alarm (90), inside the box (91), where the automatic electronic activation of the alarm (90) is performed, with the connection between the contacts (99a , (99b), wires (99), of the alarm (90), and simultaneous activation of all parts of the alarm (90) : transmitter sending signal (92), the siren (93), the flash lamp (94), the transceiver (95) on the side of the worker (35), the receiver (96), in the work coordination center. 7. Arrangement of energy absorbing elements (30) for reducing the forces exerted on a worker (35), falling under the action of the anti-fall belt (55), during his fall to the ground, according to any one of claims 1- 6, characterized in that the energy absorption elements (30), depending on the nominal value of the energy they are called upon to absorb in each case, which is a function of the weight of the worker (35), the load he carries, and the height from which it falls, are manufactured by appropriate design of their parameters, which parameters include the total length of the element (30), and the number of cross or longitudinal stitches of yarn stitches (32) along the seam and cut length of the strap (31), depending on the strength of the suture thread (32).